TW201741817A - Wearable device, method of controlling the same, and mobile device - Google Patents

Abstract

Disclosed are a wearable device and a method of controlling the wearable device. The wearable device includes a sensor unit configured to detect at least one movement of the wearable device, and a control unit configured to determine a state of the wearable device based on vehicle information received from the vehicle, to determine the state of the wearable device as a state in which a user of the wearable device is driving a vehicle if the received vehicle information corresponds to a pre-registered vehicle.

Description

可穿戴裝置、控制可穿戴裝置的方法以及行動裝置Wearable device, method of controlling wearable device, and mobile device

本發明是一般關於一種可穿戴裝置以及一種其控制方法。The present invention is generally directed to a wearable device and a method of controlling same.

可穿戴裝置為由使用者穿戴的電子裝置，諸如，智慧型手錶、智慧型眼鏡以及智慧手環。歸因於其特性，可穿戴裝置可收集與使用者有關的各種類型的資訊，例如，實體信號量測以及操作辨識。基於收集的資訊各種功能可由可穿戴裝置提供；然而，當可穿戴裝置提供此等功能時，也傾向於執行非有意的操作，導致使用者不方便。The wearable device is an electronic device worn by a user, such as a smart watch, smart glasses, and a smart bracelet. Due to its nature, the wearable device can collect various types of information related to the user, such as physical signal measurement and operational identification. Based on the collected information, various functions may be provided by the wearable device; however, when the wearable device provides such functions, it also tends to perform unintended operations, resulting in inconvenience to the user.

本發明解決上述所提到的問題以及缺點，以及至少提供以下所描述的優點。因此，本發明的觀點提供當可穿戴裝置辨識到使用者的運動並且提供預設功能時，防止可穿戴裝置執行與使用者意欲的操作不同的另一操作。The present invention addresses the above mentioned problems and disadvantages, and at least provides the advantages described below. Accordingly, aspects of the present invention provide for preventing the wearable device from performing another operation different from the user's intended operation when the wearable device recognizes the motion of the user and provides a preset function.

本發明的另一觀點提供當可穿戴裝置的使用者正在駕駛載具時，可藉由改變可穿戴裝置的功能的設定或藉由執行所需的功能來改良使用者的方便性。Another aspect of the present invention provides that when the user of the wearable device is driving the vehicle, the user's convenience can be improved by changing the setting of the function of the wearable device or by performing the required functions.

本發明的另一觀點提供當使用者正在駕駛載具時，可藉由在可穿戴裝置與載具之間的通信將各種功能提供至可穿戴裝置的使用者。Another aspect of the present invention provides a user who can provide various functions to the wearable device by communication between the wearable device and the carrier while the user is driving the vehicle.

本發明的另一觀點提供一種可穿戴裝置，其正確地辨識穿戴可穿戴裝置以及正在駕駛載具的使用者的狀態。Another aspect of the present invention provides a wearable device that correctly recognizes the state of wearing a wearable device and a user who is driving the vehicle.

根據本發明的觀點，提供一種可穿戴裝置，包含：一個感測器單元，經配置以偵測可穿戴裝置的至少一個移動；以及一個控制單元，其基於至少一個偵測的移動，經配置以判定可穿戴裝置的狀態，以及基於被判定的狀態，控制可穿戴裝置操作於執行可穿戴裝置的預設功能的第一模式中或在不執行預設功能的第二模式中。According to an aspect of the present invention, a wearable device is provided, comprising: a sensor unit configured to detect at least one movement of the wearable device; and a control unit configured to be based on the at least one detected movement The state of the wearable device is determined, and based on the determined state, the wearable device is controlled to operate in a first mode in which the preset function of the wearable device is performed or in a second mode in which the preset function is not executed.

根據本發明的另一觀點，提供一種控制可穿戴裝置的方法，包含：偵測可穿戴裝置的至少一個移動；基於至少一個被偵測的移動，判定可穿戴裝置的狀態；以及基於被判定的狀態，控制可穿戴裝置操作於執行可穿戴裝置的預設定功能的第一模式中或在不執行預設定功能的第二模式中。According to another aspect of the present invention, a method of controlling a wearable device includes: detecting at least one movement of a wearable device; determining a state of the wearable device based on the at least one detected movement; and based on the determined State, controlling the wearable device to operate in a first mode of performing a preset function of the wearable device or in a second mode in which the preset function is not performed.

根據本發明的另一觀點，提供一種經配置以控制可穿戴裝置的行動裝置，所述行動裝置包含：一個通信單元，經配置以從可穿戴裝置接收可穿戴裝置的狀態資訊；以及一個控制單元，基於狀態資訊，經配置以判定穿戴可穿戴裝置以及駕駛載具的使用者的駕駛狀態，且根據駕駛狀態透過通信單元將控制命令提供至可穿戴裝置，其中控制命令用於執行可穿戴裝置的至少一個功能。According to another aspect of the present invention, there is provided a mobile device configured to control a wearable device, the mobile device comprising: a communication unit configured to receive status information of the wearable device from the wearable device; and a control unit And determining, based on the status information, a driving state of the user wearing the wearable device and the driving vehicle, and providing a control command to the wearable device through the communication unit according to the driving state, wherein the control command is used to execute the wearable device At least one feature.

根據本發明的另一觀點，提供一種控制可穿戴裝置的方法，所述方法由行動裝置執行並且包含從可穿戴裝置接收可穿戴裝置的狀態資訊；基於可穿戴裝置的狀態資訊判定穿戴可穿戴裝置以及駕駛載具的使用者的駕駛狀態；以及根據駕駛狀態將控制命令提供至可穿戴裝置，其中控制命令用於執行可穿戴裝置的至少一個功能。According to another aspect of the present invention, a method of controlling a wearable device is provided, the method being performed by a mobile device and comprising receiving status information of the wearable device from the wearable device; determining wearing the wearable device based on status information of the wearable device And a driving state of a user driving the vehicle; and providing a control command to the wearable device according to the driving state, wherein the control command is for performing at least one function of the wearable device.

根據本發明的另一觀點，提供一種非暫時性電腦可讀記錄媒體，其具有記錄於其上的程式，程式在由電腦執行時執行控制可穿戴裝置的方法，所述方法由行動裝置執行且包括從可穿戴裝置接收可穿戴裝置的狀態資訊，基於可穿戴裝置的狀態資訊判定穿戴可穿戴裝置以及駕駛載具的使用者的駕駛狀態，以及根據駕駛狀態將控制命令提供至可穿戴裝置，其中控制命令用於執行可穿戴裝置的至少一個功能。According to another aspect of the present invention, there is provided a non-transitory computer readable recording medium having a program recorded thereon, the program executing a method of controlling a wearable device when executed by a computer, the method being performed by the mobile device and Including receiving status information of the wearable device from the wearable device, determining a driving state of the user wearing the wearable device and the driving vehicle based on the state information of the wearable device, and providing a control command to the wearable device according to the driving state, wherein The control command is for performing at least one function of the wearable device.

將參考附圖描述本發明的實施例。然而，本發明可用許多不同形式實施，且不應被解釋為限於本文所闡述的一或多個實施例。相反地，提供此等一或多個實施例以使得本發明將透徹且完整，並將對熟習此領域技術者充分傳達一或多個實施例的概念。為了清晰且簡明起見，將省略併入本文中的有關已知構造或功能的詳細描述。Embodiments of the present invention will be described with reference to the drawings. However, the invention may be embodied in many different forms and should not be construed as being limited to the one or more embodiments set forth herein. Rather, the one or more embodiments are provided so that this invention will be thorough and complete, and the concept of one or more embodiments will be fully conveyed by those skilled in the art. Detailed descriptions of known configurations or functions incorporated herein will be omitted for clarity and conciseness.

下文，將簡要地描述在本說明書中使用的術語，且將詳細地描述本發明。Hereinafter, terms used in the present specification will be briefly described, and the present invention will be described in detail.

本文中使用的包含描述性或技術術語的所有術語應被解釋為具有對一般熟習此領域技術者明顯的意義。然而，所述術語可根據一般熟習此領域技術者的意圖、先例情況或新技術的出現而具有不同意義。以及，本申請人可任意地選擇一些術語，且在此狀況下，將在本文中詳細地描述所選定術語的意義。因此，本文中使用的術語應基於術語的意義連同貫穿本說明書的描述來定義。All terms including descriptive or technical terms used herein are to be interpreted as having a significant meaning to those skilled in the art. However, the terms may have different meanings depending on the intention of the person skilled in the art, the precedent situation or the appearance of new technology. Also, the Applicant may arbitrarily select some terms, and in this case, the meaning of the selected terms will be described in detail herein. Therefore, the terms used herein should be defined based on the meaning of the terms, as well as the description throughout the specification.

貫穿本說明書，當一或多個元件具有相同名稱且用不同參考數字指示時，所述一或多個元件可執行相同功能且包含相同子元件。Throughout the specification, when one or more elements have the same names and are denoted by different reference numerals, the one or more elements may perform the same function and include the same sub-element.

貫穿本說明書，當部分「包含」或「包括」元件時，除非存在與其相反的特定描述，否則所述部分可更包含其他元件，不排除其他元件。以及，貫穿本說明書，術語「單元」指示諸如場可程式化閘陣列（field-programmablegatearray；FPGA）或特殊應用積體電路（application-specificintegratedcircuit；ASIC）的軟體組件或硬體組件，且執行具體功能。然而，術語「單元」不限於軟體或硬體，且可經形成以便在可定址儲存媒體中或操作一或多個處理器。因此，舉例而言，術語「單元」可指組件，諸如，軟體組件、物件導向式軟體組件、類別組件以及任務組件，且包含處理程序、功能、屬性、程序、次常式、程式代碼段、驅動程式、韌體、微碼、電路、資料、資料庫、資料結構、表、陣列或變數。由組件以及「單元」提供的功能可與較少組件以及「單元」相關聯，或可被劃分成額外組件以及「單元」。Throughout the specification, when a component is "comprising" or "comprising" an element, the part may include other elements, and the other elements are not excluded. And throughout the specification, the term "unit" indicates a software component or a hardware component such as a field-programmable gate array (FPGA) or an application-specific integrated circuit (ASIC), and performs specific functions. . However, the term "unit" is not limited to software or hardware and may be formed to operate in an addressable storage medium or to operate one or more processors. Thus, for example, the term "unit" can refer to a component, such as a software component, an object-oriented software component, a class component, and a task component, and includes a handler, a function, an attribute, a program, a subroutine, a program code segment, Drivers, firmware, microcode, circuits, data, libraries, data structures, tables, arrays, or variables. The functions provided by components and "units" can be associated with fewer components and "units" or can be divided into additional components and "units".

如本文中所使用，術語「及/或」包含相關聯列舉項目中的一或多者中的任一者以及所有組合。諸如「……中的至少一者」的表達當在元件的清單之前時修飾元件的整個清單，且並不修飾清單的個別元件。The term "and/or" as used herein includes any and all of one or more of the associated listed items. An expression such as "at least one of" is used to modify the entire list of elements when the list of elements is before, and does not modify the individual elements of the list.

圖1說明根據本發明的實施例的可穿戴裝置的操作。FIG. 1 illustrates the operation of a wearable device in accordance with an embodiment of the present invention.

當根據本實施例的可穿戴裝置100辨識到穿戴可穿戴裝置100的使用者正在駕駛時，可穿戴裝置100在步驟S110中自動執行由可穿戴裝置100提供的功能，或在步驟S120中改變由可穿戴裝置100提供的功能的設定。When the wearable device 100 according to the present embodiment recognizes that the user wearing the wearable device 100 is driving, the wearable device 100 automatically performs the function provided by the wearable device 100 in step S110, or changes in step S120 by The setting of the functions provided by the wearable device 100.

可穿戴裝置100為可由使用者穿戴的電子裝置，且可以（例如）腕錶、眼鏡、耳環、項鏈、耳機、耳環型配飾、鞋、戒指、衣物或安全帽來實施。然而，可穿戴裝置100不限於此，並且可以直接附著至使用者的身體或自使用者的身體脫離的形式來實施。舉例而言，可穿戴裝置100可具有可以黏著劑方式或非黏著劑方式附著至使用者的身體的貼片結構。可將可穿戴裝置100***至使用者的身體內，諸如，表皮電子皮膚（意即，E皮膚）或電子紋身（意即，E紋身），且可皮下或侵入性地***至身體內。The wearable device 100 is an electronic device that can be worn by a user and can be implemented, for example, by a wristwatch, glasses, earrings, necklace, earphones, earring-type accessories, shoes, rings, clothing, or a safety helmet. However, the wearable device 100 is not limited thereto, and may be implemented by directly attaching to or detaching from the body of the user. For example, the wearable device 100 can have a patch structure that can be attached to the user's body in an adhesive or non-adhesive manner. The wearable device 100 can be inserted into the body of a user, such as a skin electronic skin (ie, E skin) or an electronic tattoo (ie, an E-tattoo), and can be inserted subcutaneously or invasively into the body.

當穿戴時，可穿戴裝置100以預設方式接觸使用者的身體。舉例而言，使用者可按以下方式穿戴可穿戴裝置100：使用者穿戴腕錶、眼鏡、耳環、項鏈、耳機、在外耳上的耳環型配飾、鞋、戒指、衣物或安全帽。When worn, the wearable device 100 contacts the user's body in a predetermined manner. For example, the user can wear the wearable device 100 in such a manner that the user wears a wristwatch, glasses, earrings, necklace, earphones, earring-type accessories on the outer ear, shoes, rings, clothing, or a safety helmet.

當使用者正在駕駛諸如汽車、機車、腳踏車、公車、地下道車、電子鐵路車、火車、飛機、直升機或船的載具時，使用者坐在司機的座位中且操縱載具。舉例而言，當使用者執行包含轉動方向盤、操縱齒輪、操縱加速器踏板以及制動踏板或檢查載具的儀錶盤的操作時，可穿戴裝置100辨識到使用者正在駕駛。可經由作業系統（operating system；OS）或應用程式來提供由可穿戴裝置100提供的功能。舉例而言，功能包含自動螢幕上顯示、導航、超速通知、交通狀態資訊的提供、昏睡駕駛防止、擴增實境顯示、待命模式轉換、通知、計步器、與載具的通信或與另一電子裝置的通信。When the user is driving a vehicle such as a car, a locomotive, a bicycle, a bus, an underground car, an electronic railway car, a train, an airplane, a helicopter, or a ship, the user sits in the driver's seat and manipulates the vehicle. For example, when the user performs an operation including rotating the steering wheel, steering the gear, manipulating the accelerator pedal, and braking the pedal or inspecting the instrument panel of the vehicle, the wearable device 100 recognizes that the user is driving. The functions provided by the wearable device 100 can be provided via an operating system (OS) or an application. For example, features include automatic on-screen display, navigation, overspeed notification, provision of traffic status information, slumber driving prevention, augmented reality display, standby mode transition, notification, pedometer, communication with the vehicle, or another Communication of an electronic device.

當可穿戴裝置100辨識到穿戴可穿戴裝置100的使用者正在駕駛時，可穿戴裝置100可自動執行先前經設定以在駕駛期間提供至使用者的一或多者前述功能中。當可穿戴裝置100辨識到穿戴可穿戴裝置100的使用者正在駕駛時，可穿戴裝置100改變由可穿戴裝置100提供的功能的設定。舉例而言，當可穿戴裝置100的使用者正在駕駛時，可穿戴裝置100去關閉自動螢幕上功能，將可穿戴裝置100的模式切換至待用模式，阻擋通知，停止計數計步器的步數，或去關閉或啟動與載具的通信。When the wearable device 100 recognizes that the user wearing the wearable device 100 is driving, the wearable device 100 can automatically perform one or more of the aforementioned functions that were previously set to be provided to the user during driving. When the wearable device 100 recognizes that the user wearing the wearable device 100 is driving, the wearable device 100 changes the setting of the function provided by the wearable device 100. For example, when the user of the wearable device 100 is driving, the wearable device 100 turns off the automatic on-screen function, switches the mode of the wearable device 100 to the standby mode, blocks the notification, and stops the step of counting the pedometer. Number, or to close or initiate communication with the vehicle.

圖2說明根據本發明的實施例的可穿戴裝置的結構。2 illustrates the structure of a wearable device in accordance with an embodiment of the present invention.

如圖2中所說明的可穿戴裝置100a包含感測器單元210以及控制單元220。The wearable device 100a as illustrated in FIG. 2 includes a sensor unit 210 and a control unit 220.

感測器單元210獲得可穿戴裝置100a的狀態資訊且包含能夠獲得可穿戴裝置100a的狀態資訊的至少一個感測器。狀態資訊包含自感測器單元210中包含的至少一個感測器輸出的感測值。The sensor unit 210 obtains status information of the wearable device 100a and includes at least one sensor capable of obtaining status information of the wearable device 100a. The status information includes sensed values output from at least one of the sensors included in the sensor unit 210.

感測值可根據類型變化。舉例而言，感測值包含加速度值、位置資訊或影像捕獲信號。The sensed value can vary depending on the type. For example, the sensed value includes an acceleration value, a position information, or an image capture signal.

控制單元220控制可穿戴裝置100a的一般操作。根據本實施例的控制單元220基於自感測器單元210輸出的狀態資訊判定穿戴可穿戴裝置100a的使用者正在駕駛。若使用者正在駕駛，則控制單元220改變可穿戴裝置100a的至少一個功能的設定，或執行可穿戴裝置100a的至少一個功能。The control unit 220 controls the general operation of the wearable device 100a. The control unit 220 according to the present embodiment determines that the user wearing the wearable device 100a is driving based on the status information output from the sensor unit 210. If the user is driving, the control unit 220 changes the setting of at least one function of the wearable device 100a, or performs at least one function of the wearable device 100a.

圖3說明根據本發明的實施例的感測器單元的結構。Figure 3 illustrates the structure of a sensor unit in accordance with an embodiment of the present invention.

感測器單元210a包含陀螺儀感測器302、位置偵測模組304、磁場感測器306、觸控式螢幕308、接近性/觸控感測器310、加速度感測器312、相機314、麥克風316、紅外線感測器318以及傾斜感測器320。然而，一或多個實施例不限於此，且感測器單元210a可更包含（例如）氣壓感測器、照明感測器或重力感測器。位置偵測模組304包含（例如）全球定位系統（global positioning system；GPS）模組、Wi-Fi保護設置（Wi-Fi protected setup；WPS）模組或Bluetooth®低能量（Bluetooth® low energy；BLE）模組。The sensor unit 210a includes a gyro sensor 302, a position detecting module 304, a magnetic field sensor 306, a touch screen 308, a proximity/touch sensor 310, an acceleration sensor 312, and a camera 314. A microphone 316, an infrared sensor 318, and a tilt sensor 320. However, one or more embodiments are not limited thereto, and the sensor unit 210a may further include, for example, a barometric sensor, an illumination sensor, or a gravity sensor. The location detection module 304 includes, for example, a global positioning system (GPS) module, a Wi-Fi protected setup (WPS) module, or a Bluetooth® low energy (Bluetooth® low energy; BLE) module.

感測器單元210a中的感測器的類型可根據可穿戴裝置100a的形式或實施例而變化。舉例而言，呈腕錶形式的可穿戴裝置100a包含位置偵測模組304、磁場感測器306、觸控式螢幕308、加速度感測器312、相機314以及麥克風316。呈眼鏡形式的可穿戴裝置100a包含陀螺儀感測器302、位置偵測模組304、接近性/觸控感測器310、加速度感測器312、相機314、麥克風316以及傾斜感測器320。The type of sensor in the sensor unit 210a may vary depending on the form or embodiment of the wearable device 100a. For example, the wearable device 100a in the form of a wristwatch includes a position detecting module 304, a magnetic field sensor 306, a touch screen 308, an acceleration sensor 312, a camera 314, and a microphone 316. The wearable device 100a in the form of glasses includes a gyro sensor 302, a position detecting module 304, a proximity/touch sensor 310, an acceleration sensor 312, a camera 314, a microphone 316, and a tilt sensor 320. .

圖4說明根據本發明的實施例的控制可穿戴裝置的方法。舉例而言，將使用如圖1中所說明的可穿戴裝置100描述圖4的方法。4 illustrates a method of controlling a wearable device in accordance with an embodiment of the present invention. For example, the method of FIG. 4 will be described using wearable device 100 as illustrated in FIG.

在步驟S402中，可穿戴裝置100獲得可穿戴裝置100的狀態資訊。舉例而言，藉由使用至少一個包含的感測器，可穿戴裝置100獲得諸如以下的狀態資訊：加速度值、振動值、傾斜值、位置資訊、磁場資訊、接近性/觸摸資訊、影像捕獲信號、聲音或紅外線偵測值。In step S402, the wearable device 100 obtains status information of the wearable device 100. For example, by using at least one included sensor, the wearable device 100 obtains status information such as acceleration value, vibration value, tilt value, position information, magnetic field information, proximity/touch information, and image capture signal. , sound or infrared detection value.

在步驟S404中，可穿戴裝置100藉由使用狀態資訊判定穿戴可穿戴裝置100的使用者是否正在駕駛。可穿戴裝置100藉由判定是否偵測到指示使用者正在駕駛的狀態資訊來辨識使用者是否正在駕駛。可穿戴裝置100儲存指示使用者正在駕駛的駕駛狀態資訊。然而，為了判定使用者正在駕駛，可穿戴裝置100將儲存的駕駛狀態資訊與獲得的狀態資訊比較。作為比較的結果，如果儲存的駕駛狀態資訊與獲得的狀態資訊之間的差等於或小於參考值，則可穿戴裝置100判定使用者正在駕駛。In step S404, the wearable device 100 determines whether the user wearing the wearable device 100 is driving by using the status information. The wearable device 100 recognizes whether the user is driving by determining whether or not the status information indicating that the user is driving is detected. The wearable device 100 stores driving state information indicating that the user is driving. However, in order to determine that the user is driving, the wearable device 100 compares the stored driving status information with the obtained status information. As a result of the comparison, if the difference between the stored driving state information and the obtained state information is equal to or smaller than the reference value, the wearable device 100 determines that the user is driving.

當在步驟S404中可穿戴裝置100判定使用者正在駕駛時，在步驟S406中，可穿戴裝置100改變可穿戴裝置100的至少一個功能的設定，諸如，自動螢幕上功能以及計步器功能，且可穿戴裝置100可具有關於將改變哪些設定的一或多個功能的資訊。改變功能的設定指示關閉功能或改變功能的執行形式。舉例而言，當可穿戴裝置100判定使用者正在駕駛時，可穿戴裝置100改變一或多個功能的設定，使得可穿戴裝置100大聲地讀取本文訊息，在揚聲器電話上打電話，將電話的狀態改變至自動應答模式，藉由自動發送本文訊息來回覆來電通話，去關閉自動螢幕上顯示功能以用於當偵測到預設定運動時自動接通螢幕，去關閉由計步器進行的計數步數，去關閉Wi-Fi以及近場通信（near field communication；NFC），啟動語音辨識，或改變使用者介面的螢幕上的按鈕的大小以及數目。When the wearable device 100 determines in step S404 that the user is driving, in step S406, the wearable device 100 changes settings of at least one function of the wearable device 100, such as an on-screen function and a pedometer function, and The wearable device 100 can have information about which one or more functions of the settings will be changed. The setting of the change function indicates that the function is turned off or the execution form of the function is changed. For example, when the wearable device 100 determines that the user is driving, the wearable device 100 changes the setting of one or more functions, so that the wearable device 100 reads the message aloud and makes a call on the speakerphone. The status of the phone changes to the automatic answer mode. By automatically sending the message to the callback call, the automatic on-screen display function is turned off for automatically turning on the screen when the preset motion is detected, and the pedometer is turned off. Count the number of steps to turn off Wi-Fi and near field communication (NFC), initiate speech recognition, or change the size and number of buttons on the user interface's screen.

圖5說明根據本發明的實施例的改變可穿戴裝置的功能的設定的程序。FIG. 5 illustrates a procedure for changing settings of a function of a wearable device in accordance with an embodiment of the present invention.

圖5中的可穿戴裝置100b提供計步器功能，其在步驟S502中藉由偵測移動資訊來計數使用者的步數。舉例而言，控制單元220藉由使用由感測器單元210的加速度感測器312產生的加速度量測值來計數使用者的步數。根據實施例，當感測器單元210a判定在x、y及z方向上的產生的加速度量測值等於或大於在預設定臨限值x、y及z方向上的加速度值時，感測器單元210a產生中斷信號且將中斷信號傳輸至控制單元220。當控制單元220自感測器單元210a接收到中斷信號時，控制單元220增大步數的值。The wearable device 100b of FIG. 5 provides a pedometer function that counts the number of steps of the user by detecting the movement information in step S502. For example, the control unit 220 counts the number of steps of the user by using the acceleration measurement value generated by the acceleration sensor 312 of the sensor unit 210. According to an embodiment, when the sensor unit 210a determines that the generated acceleration measurement values in the x, y, and z directions are equal to or greater than the acceleration values in the preset thresholds x, y, and z directions, the sensor Unit 210a generates an interrupt signal and transmits the interrupt signal to control unit 220. When the control unit 220 receives the interrupt signal from the sensor unit 210a, the control unit 220 increases the value of the number of steps.

當根據本實施例的可穿戴裝置100b判定使用者正在駕駛時，在步驟S504中，可穿戴裝置100a去關閉計步器功能。在此情況下，即使可穿戴裝置100b偵測到滿足用於增大步數的值的條件的移動資訊，可穿戴裝置100a可不增大步數的值。When the wearable device 100b according to the present embodiment determines that the user is driving, the wearable device 100a turns off the pedometer function in step S504. In this case, the wearable device 100a may not increase the value of the step even if the wearable device 100b detects the movement information satisfying the condition for increasing the value of the number of steps.

根據本實施例，由於可穿戴裝置100b不在使用者正在駕駛時增大步數的值，因此計步器功能的準確性改良。根據本實施例的可穿戴裝置100b可以包含（例如）腕錶、手鐲、帶、眼鏡、衣物、鞋、戒指或耳環的各種形式來實施。According to the present embodiment, since the wearable device 100b does not increase the value of the number of steps while the user is driving, the accuracy of the pedometer function is improved. The wearable device 100b according to the present embodiment may be implemented in various forms including, for example, a wristwatch, a bracelet, a belt, glasses, clothing, shoes, rings, or earrings.

圖6說明根據本發明的實施例的可穿戴裝置。Figure 6 illustrates a wearable device in accordance with an embodiment of the present invention.

根據本實施例的可穿戴裝置100b包含感測器單元210、控制單元220以及顯示單元610。The wearable device 100b according to the present embodiment includes a sensor unit 210, a control unit 220, and a display unit 610.

感測器單元210獲得可穿戴裝置100b的狀態資訊且包含能夠獲得可穿戴裝置100b的狀態資訊的至少一個感測器。The sensor unit 210 obtains status information of the wearable device 100b and includes at least one sensor capable of obtaining status information of the wearable device 100b.

控制單元220控制可穿戴裝置100b的一般操作。根據本實施例的控制單元220基於自感測器單元210輸出的狀態資訊判定穿戴可穿戴裝置100b的使用者正在駕駛。若使用者正在駕駛，則控制單元220改變可穿戴裝置100b的至少一個功能的設定，或執行可穿戴裝置100b的至少一個功能。The control unit 220 controls the general operation of the wearable device 100b. The control unit 220 according to the present embodiment determines that the user wearing the wearable device 100b is driving based on the status information output from the sensor unit 210. If the user is driving, the control unit 220 changes the setting of at least one function of the wearable device 100b, or performs at least one function of the wearable device 100b.

舉例而言，顯示單元610顯示可穿戴裝置100b的狀態資訊以及應用程式的執行畫面。顯示單元610包含（例如）液晶顯示器（liquid crystal display；LCD）裝置或有機電致發光顯示裝置，且可根據可穿戴裝置100b的類型以各種位置以及形式來實施。舉例而言，當可穿戴裝置100b實施為腕錶時，可將顯示單元610安置於錶盤處。當可穿戴裝置100b實施為眼鏡時，可將顯示單元610作為透明顯示器安置於眼鏡的鏡片處。當可穿戴裝置100b實施為安全帽時，可將顯示單元610作為透明顯示器安置於安全帽的透明前窗處。For example, the display unit 610 displays status information of the wearable device 100b and an execution screen of the application. The display unit 610 includes, for example, a liquid crystal display (LCD) device or an organic electroluminescence display device, and can be implemented in various positions and forms depending on the type of the wearable device 100b. For example, when the wearable device 100b is implemented as a wristwatch, the display unit 610 can be placed at the dial. When the wearable device 100b is implemented as glasses, the display unit 610 can be placed as a transparent display at the lens of the glasses. When the wearable device 100b is implemented as a hard hat, the display unit 610 can be placed as a transparent display at the transparent front window of the helmet.

圖7說明根據本發明的實施例的可穿戴裝置100b的操作。Figure 7 illustrates the operation of the wearable device 100b in accordance with an embodiment of the present invention.

在圖7中，可穿戴裝置100b實施為穿戴在使用者的手腕上的腕錶。如在步驟S702中所說明，當具有其上穿戴著可穿戴裝置100b的手腕的使用者的手臂沿著使用者的身體且使用者抬高其手臂以允許可穿戴裝置100b的顯示單元610面對使用者的臉時（如在步驟S704中所說明），可穿戴裝置100b提供自動螢幕上顯示功能以用於將可穿戴裝置100b的顯示單元610的在步驟S702中的顯示器關閉狀態改變至在步驟S704中的顯示器接通狀態。In Fig. 7, the wearable device 100b is implemented as a wristwatch that is worn on the wrist of the user. As explained in step S702, when the arm of the user having the wrist on which the wearable device 100b is worn is along the body of the user and the user raises his arm to allow the display unit 610 of the wearable device 100b to face When the face of the user (as explained in step S704), the wearable device 100b provides an on-screen display function for changing the display off state of the display unit 610 of the wearable device 100b in step S702 to the step The display in S704 is in an on state.

圖8說明根據本發明的實施例的由可穿戴裝置100b進行的運動辨識。Figure 8 illustrates motion recognition by the wearable device 100b in accordance with an embodiment of the present invention.

在圖7中，自動螢幕上功能藉由可穿戴裝置100b的移動的偵測來提供，諸如，以如圖8中說明的預設定形式。當偵測到移動時，可穿戴裝置100b自動啟動顯示單元610。舉例而言，如圖8中所說明，按預設定形式移動以執行自動螢幕上功能是使得在垂直方向上的可穿戴裝置100b的顯示單元610歸因於圓形移動在水平方向上移動。除了圖8中說明的移動外，呈各種形成的移動可經設定以執行自動螢幕上功能。In FIG. 7, the on-screen function is provided by detection of movement of the wearable device 100b, such as in a pre-set form as illustrated in FIG. When the movement is detected, the wearable device 100b automatically activates the display unit 610. For example, as illustrated in FIG. 8, moving in a preset form to perform an on-screen function is such that the display unit 610 of the wearable device 100b in the vertical direction moves in the horizontal direction due to the circular movement. In addition to the movements illustrated in Figure 8, the variously formed movements can be set to perform an on-screen function.

為了偵測移動資訊，可穿戴裝置100b包含感測器單元210，感測器單元包含（例如）陀螺儀感測器或加速度感測器。In order to detect movement information, the wearable device 100b includes a sensor unit 210 that includes, for example, a gyro sensor or an acceleration sensor.

圖9說明根據本發明的另一實施例的可穿戴裝置100b的操作。Figure 9 illustrates the operation of the wearable device 100b in accordance with another embodiment of the present invention.

如參考圖7所描述，當呈提供自動螢幕上功能的腕錶形式的可穿戴裝置100b判定使用者正在駕駛時，可穿戴裝置100b可去關閉自動螢幕上功能。在此情況下，即使可穿戴裝置100b偵測到用於自動螢幕上功能的預設定移動，可穿戴裝置100b仍不自動接通顯示單元610。As described with reference to FIG. 7, when the wearable device 100b in the form of a wristwatch providing an automatic on-screen function determines that the user is driving, the wearable device 100b can turn off the automatic on-screen function. In this case, the wearable device 100b does not automatically turn on the display unit 610 even if the wearable device 100b detects a preset movement for the on-screen function.

若使用者在駕駛時穿戴呈腕錶形式的可穿戴裝置100b，則當使用者藉由使用具有其上穿戴可穿戴裝置100b的手腕的手臂的手握住且轉動方向盤時，偵測到用於自動螢幕上功能的預設定移動。舉例而言，如圖9中所說明，雖然在步驟S902中使用者用具有其上穿戴可穿戴裝置100b的手腕的手臂的手握住方向盤的左側或右側，當在步驟S904中，使用者在方向盤的上部方向上轉動方向盤時，偵測到按預設定形式移動以執行自動螢幕上功能，如上參考圖7以及圖8所描述。根據本實施例，即使使用者轉動方向盤且因此可穿戴裝置100b偵測到用於自動螢幕上功能的目前移動（如圖9中所說明），可穿戴裝置100b不自動接通顯示單元610，此防止由於違背使用者的意圖而接通顯示單元610的使用者不方便。If the user wears the wearable device 100b in the form of a wristwatch while driving, when the user holds and turns the steering wheel by using the hand having the arm on which the wearable device 100b is worn, it is detected for Pre-set movement of the on-screen function. For example, as illustrated in FIG. 9, although the user holds the left or right side of the steering wheel with the hand having the arm on which the wrist of the wearable device 100b is worn in step S902, when the user is in step S904 When the steering wheel is rotated in the upper direction of the steering wheel, it is detected that it moves in a preset manner to perform an on-screen function, as described above with reference to FIGS. 7 and 8. According to the present embodiment, even if the user turns the steering wheel and thus the wearable device 100b detects the current movement for the on-screen function (as illustrated in FIG. 9), the wearable device 100b does not automatically turn on the display unit 610. It is inconvenient to prevent the user who turns on the display unit 610 from violating the user's intention.

圖10說明根據本發明的另一實施例的可穿戴裝置100b的操作。Figure 10 illustrates the operation of the wearable device 100b in accordance with another embodiment of the present invention.

根據本實施例，當使用者正在駕駛時，在步驟S1004中，可穿戴裝置100b改變諸如在顯示單元610上顯示的一或多個對象的大小、數目或安置的參數。一或多個對象包含（例如）用於執行功能或應用程式或用於選擇且再現內容的對象。可以（例如）圖示、縮略圖影像、音樂再現清單或視訊再現清單的形式來顯示一或多個對象中的每一者。According to the present embodiment, when the user is driving, in step S1004, the wearable device 100b changes the size, the number, or the set parameters of one or more objects displayed on the display unit 610. One or more objects include, for example, objects for performing functions or applications or for selecting and reproducing content. Each of the one or more objects can be displayed in the form of, for example, a graphic, a thumbnail image, a music reproduction list, or a video reproduction list.

根據本實施例，當使用者正在駕駛時，與使用者未在駕駛時相比，可穿戴裝置100b增大在顯示單元610上顯示的一或多個對象的大小，減少在顯示單元610上顯示的一或多個對象的數目，且增大在顯示單元610上顯示的一或多個對象之間的空間。According to the present embodiment, when the user is driving, the wearable device 100b increases the size of one or more objects displayed on the display unit 610, and reduces display on the display unit 610, compared to when the user is not driving. The number of one or more objects and increases the space between one or more objects displayed on display unit 610.

舉例而言，如圖10中所說明，當使用者未在駕駛時，在步驟S1002中，在顯示單元610上顯示三個應用程式執行圖示，且當使用者正在駕駛時，在顯示單元610上顯示兩個應用程式執行圖示，使得在步驟S1004中，應用執行圖示之間的空間加寬。For example, as illustrated in FIG. 10, when the user is not driving, in the step S1002, three application execution icons are displayed on the display unit 610, and when the user is driving, at the display unit 610. The two application execution icons are displayed on top, such that in step S1004, the space between the application execution icons is widened.

根據本實施例，當使用者在使用者正在駕駛時操縱可穿戴裝置100b時，一或多個對象甚至更清晰地繪示且更易於可操縱，藉此減小在操縱期間的操縱複雜度以及誤差的可能性。According to the present embodiment, when the user manipulates the wearable device 100b while the user is driving, one or more objects are even more clearly depicted and more steerable, thereby reducing the manipulation complexity during manipulation and The possibility of error.

圖11說明根據本發明的另一實施例的可穿戴裝置100b的操作。Figure 11 illustrates the operation of the wearable device 100b in accordance with another embodiment of the present invention.

當根據本實施例的可穿戴裝置100b判定使用者正在駕駛時，可穿戴裝置100b改變將通知提供所述使用者的方式。通知包含（例如）本文訊息、呼叫或應用程式的通知，且通知形式包含螢幕上以及通知內容的顯示、聲音以及振動或其組合中的至少一者。When the wearable device 100b according to the present embodiment determines that the user is driving, the wearable device 100b changes the manner in which the user is notified of the notification. The notification includes, for example, a notification of the message, call, or application herein, and the notification form includes at least one of a display, a sound, and a vibration, or a combination thereof, on the screen and the notification content.

在實施例中，當可穿戴裝置100b判定使用者正在駕駛時，可穿戴裝置100b可不提供通知。在此情況下，即使通知事件出現，可穿戴裝置100b仍不執行諸如螢幕上、通知內容的顯示、聲音或振動的通知操作。In an embodiment, the wearable device 100b may not provide a notification when the wearable device 100b determines that the user is driving. In this case, even if a notification event occurs, the wearable device 100b does not perform a notification operation such as on-screen, notification of display of content, sound, or vibration.

在另一實施例中，當可穿戴裝置100b判定使用者正在駕駛時，可穿戴裝置100b用聲音輸出通知的內容，諸如，用聲音讀取在使用者正在駕駛時接收的本文訊息的內容。當在應用程式中產生通知時，可穿戴裝置100b可用聲音讀取在應用程式中產生的通知的內容。為了如此進行，可穿戴裝置100b包含用於將通知的內容轉換成語音的模組。因此，當在使用者正在駕駛時出現通知事件時，使用者辨識通知的內容，而不用操縱可穿戴裝置100b或檢查顯示單元610。In another embodiment, when the wearable device 100b determines that the user is driving, the wearable device 100b audibly outputs the notified content, such as by sound, reading the content of the text message received while the user is driving. When a notification is generated in the application, the wearable device 100b can sound-read the content of the notification generated in the application. To do so, the wearable device 100b includes a module for converting the notified content into a voice. Therefore, when a notification event occurs while the user is driving, the user recognizes the content of the notification without manipulating the wearable device 100b or checking the display unit 610.

圖12說明根據本發明的另一實施例的可穿戴裝置100b的操作。Figure 12 illustrates the operation of the wearable device 100b in accordance with another embodiment of the present invention.

根據本實施例，若可穿戴裝置100b判定使用者正在駕駛，則當可穿戴裝置100b接收到來電通話時，可穿戴裝置100b在應答來電通話時執行揚聲器電話功能。揚聲器電話功能允許使用者在使用者未面對可穿戴裝置100b時進行呼叫，且可穿戴裝置100b經由可穿戴裝置100b中的揚聲器按對應於揚聲器電話功能的預設音量等級輸出語音資料。在揚聲器電話功能的執行期間，與在未使用揚聲器電話功能時接收來電通話時相比，預設定音量等級為高。According to the present embodiment, if the wearable device 100b determines that the user is driving, when the wearable device 100b receives an incoming call, the wearable device 100b performs a speakerphone function when answering the incoming call. The speakerphone function allows the user to make a call when the user does not face the wearable device 100b, and the wearable device 100b outputs the voice material via a speaker in the wearable device 100b at a preset volume level corresponding to the speakerphone function. During execution of the speakerphone function, the preset volume level is high compared to when an incoming call is received when the speakerphone function is not being used.

根據本實施例，當可穿戴裝置100b判定使用者正在駕駛以及接收來電通話時，可穿戴裝置100b可經由語音辨識來應答來電通話。在此情況下，可穿戴裝置100b啟動麥克風以及用於語音辨識的語音辨識功能。According to the present embodiment, when the wearable device 100b determines that the user is driving and receiving an incoming call, the wearable device 100b can answer the incoming call via voice recognition. In this case, the wearable device 100b activates a microphone and a voice recognition function for voice recognition.

圖13說明根據本發明的另一實施例的可穿戴裝置100b的操作。Figure 13 illustrates the operation of the wearable device 100b in accordance with another embodiment of the present invention.

在圖13中，當可穿戴裝置100b判定使用者正在駕駛時，可穿戴裝置100b啟動語音辨識功能，藉由辨識使用者的語音來執行可穿戴裝置100b的功能或應用程式，或操縱執行的功能或執行的應用程式。舉例而言，如在圖13中的對話框中所說明，當使用者在使用者正在駕駛時說出「導航」時，可穿戴裝置100b辨識使用者的語音且因此執行導航功能。In FIG. 13, when the wearable device 100b determines that the user is driving, the wearable device 100b activates the voice recognition function, and performs the function or application of the wearable device 100b by recognizing the voice of the user, or manipulates the executed function. Or an executed application. For example, as illustrated in the dialog box of FIG. 13, when the user speaks "navigation" while the user is driving, the wearable device 100b recognizes the user's voice and thus performs the navigation function.

圖14說明根據本發明的實施例的控制可穿戴裝置100b的方法。FIG. 14 illustrates a method of controlling a wearable device 100b in accordance with an embodiment of the present invention.

在圖14中，當可穿戴裝置100b判定使用者正在駕駛時，可穿戴裝置100b執行預設定功能。在步驟S1402中，可穿戴裝置100b獲得可穿戴裝置100b的狀態資訊，且在步驟S1404中，判定穿戴可穿戴裝置100b的使用者是否正在駕駛。若穿戴可穿戴裝置100b的使用者正在駕駛，則在步驟S1406中，可穿戴裝置100b執行預設定功能。若判定使用者未在駕駛，則過程返回至步驟S1402。In FIG. 14, when the wearable device 100b determines that the user is driving, the wearable device 100b performs a preset function. In step S1402, the wearable device 100b obtains the status information of the wearable device 100b, and in step S1404, it is determined whether the user wearing the wearable device 100b is driving. If the user wearing the wearable device 100b is driving, the wearable device 100b performs a preset function in step S1406. If it is determined that the user is not driving, the process returns to step S1402.

根據實施例，預設定功能可由可穿戴裝置100b的製造商或設計者設定，或可由可穿戴裝置100b的使用者預設定。According to an embodiment, the pre-set function may be set by the manufacturer or designer of the wearable device 100b or may be preset by a user of the wearable device 100b.

根據本實施例，當可穿戴裝置100b判定使用者正在駕駛時，在無使用者輸入的情況下，可穿戴裝置100b立即執行預設定功能。According to the present embodiment, when the wearable device 100b determines that the user is driving, the wearable device 100b immediately performs the preset function without user input.

在另一實施例中，當可穿戴裝置100b判定使用者正在駕駛時，可穿戴裝置100b提供用於接收選擇是否執行預設定功能的輸入的使用者介面，且根據使用者輸入執行預設定功能。用於接收選擇是否執行預設定功能的輸入的使用者介面可藉由使用者用聲音詢問問題且經由語音辨識接收使用者輸入或在顯示單元610上顯示用於選擇是否執行預設定功能的選單且經由顯示的選單接收使用者輸入來提供。In another embodiment, when the wearable device 100b determines that the user is driving, the wearable device 100b provides a user interface for receiving an input selecting whether to perform a preset function, and performs a preset function according to the user input. A user interface for receiving an input selecting whether to perform a preset function may be used by the user to interrogate the question by voice and receive user input via voice recognition or display a menu for selecting whether to perform a preset function on the display unit 610 and Provided by receiving user input via the displayed menu.

根據本實施例，在可穿戴裝置100b判定使用者正在駕駛且執行步驟S1404以及S1406中的預設定功能後，若可穿戴裝置100b判定使用者不再駕駛，則可穿戴裝置100b結束執行的預設定功能。當可穿戴裝置100b結束執行的預設定功能時，可穿戴裝置100b自動結束執行的預設定功能，或提供用於選擇是否結束執行的預設定功能的使用者介面且根據使用者輸入結束執行的預設定功能。According to the present embodiment, after the wearable device 100b determines that the user is driving and performs the preset function in steps S1404 and S1406, if the wearable device 100b determines that the user is no longer driving, the wearable device 100b ends the execution of the preset. Features. When the wearable device 100b ends the execution of the preset function, the wearable device 100b automatically ends the execution of the preset function, or provides a user interface for selecting whether to end the execution of the preset function and ends the execution according to the user input. Set the function.

圖15說明根據本發明的實施例的當使用者正在駕駛時可穿戴裝置100b執行預設定功能的操作。FIG. 15 illustrates an operation of the wearable device 100b performing a preset function when the user is driving, according to an embodiment of the present invention.

在圖15中，當使用者正在駕駛時，可穿戴裝置100b執行導航功能。在可穿戴裝置100b判定使用者正在駕駛且執行導航功能後，若可穿戴裝置100b判定使用者不再駕駛，則可穿戴裝置100b自動結束導航功能。在此情況下，可穿戴裝置100b自安裝在載具中的導航裝置接收導航資訊（例如，導引資訊），在可穿戴裝置100b的螢幕上顯示接收的導航資訊，且將導航資訊以語音提供至使用者。然而，一或多個實施例不限於此，且可穿戴裝置100b可執行裝設於可穿戴裝置100b中的導航應用程式，且使用由執行的導航應用程式提供的功能。In FIG. 15, the wearable device 100b performs a navigation function while the user is driving. After the wearable device 100b determines that the user is driving and performs the navigation function, if the wearable device 100b determines that the user is no longer driving, the wearable device 100b automatically ends the navigation function. In this case, the wearable device 100b receives navigation information (for example, navigation information) from the navigation device installed in the vehicle, displays the received navigation information on the screen of the wearable device 100b, and provides the navigation information by voice. To the user. However, one or more embodiments are not limited thereto, and the wearable device 100b may execute a navigation application installed in the wearable device 100b and use the functions provided by the executed navigation application.

圖16說明根據本發明的另一實施例的當使用者正在駕駛時可穿戴裝置100b執行預設定功能的操作。FIG. 16 illustrates an operation of the wearable device 100b performing a preset function while the user is driving, according to another embodiment of the present invention.

在圖16中，當使用者正在駕駛時，可穿戴裝置100b執行昏睡駕駛防止功能。舉例而言，可穿戴裝置100b將相機1610安置於相機1610對使用者的眼睛拍照的位置處，拍照且判定使用者是否昏昏欲睡。舉例而言，若使用者眨動其眼睛超過參考比（與正常狀態相比），則可穿戴裝置100b偵測使用者的眼睛的眨眼圖案，且若使用者閉眼的時間週期與使用者睜眼的時間週期的時間比增大，則可穿戴裝置100b判定使用者昏昏欲睡。In FIG. 16, the wearable device 100b performs a drowsy driving prevention function while the user is driving. For example, the wearable device 100b places the camera 1610 at a position where the camera 1610 takes a picture of the user's eyes, takes a picture, and determines whether the user is drowsy. For example, if the user shakes their eyes beyond the reference ratio (compared to the normal state), the wearable device 100b detects the blinking pattern of the user's eyes, and if the user closes the eye for a period of time and the user blinks The time ratio of the time period is increased, and the wearable device 100b determines that the user is drowsy.

為了如此進行，可穿戴裝置100b的感測器單元210包含相機314，其安置於相機314能夠對使用者的眼睛拍照的位置處。舉例而言，當可穿戴裝置100b實施為眼鏡時，相機314安置於眼鏡的鏡腿或鏡片處，以便面對使用者的眼睛。To do so, the sensor unit 210 of the wearable device 100b includes a camera 314 that is disposed at a position where the camera 314 can take a picture of the user's eyes. For example, when the wearable device 100b is implemented as glasses, the camera 314 is placed at the temple or lens of the glasses to face the eyes of the user.

當可穿戴裝置100b判定使用者昏昏欲睡時，可穿戴裝置100b藉由輸出聲音或藉由產生振動來執行昏睡駕駛防止功能。When the wearable device 100b determines that the user is drowsy, the wearable device 100b performs the drowsy driving prevention function by outputting a sound or by generating vibration.

圖17說明根據本發明的另一實施例的當使用者正在駕駛時可穿戴裝置100b執行預設定功能的操作。FIG. 17 illustrates an operation of the wearable device 100b performing a preset function while the user is driving, according to another embodiment of the present invention.

若根據本實施例的可穿戴裝置100b實施為眼鏡或安全帽，則當使用者正在駕駛時，可穿戴裝置100b以擴增實境的形式在使用者前面的顯示單元610上提供（例如）載具資訊、導航資訊以及交通資訊。舉例而言，如圖17中所說明，可穿戴裝置100b以擴增實境的形式顯示導航資訊。可藉由在顯示單元610上顯示三維（3D）影像來實現擴增實境。If the wearable device 100b according to the present embodiment is implemented as glasses or a helmet, when the user is driving, the wearable device 100b is provided on the display unit 610 in front of the user in the form of augmented reality, for example, Information, navigation information and traffic information. For example, as illustrated in FIG. 17, the wearable device 100b displays navigation information in the form of augmented reality. Augmented reality can be achieved by displaying a three-dimensional (3D) image on display unit 610.

圖18說明根據本發明的實施例的可穿戴裝置100c的結構。Figure 18 illustrates the structure of a wearable device 100c in accordance with an embodiment of the present invention.

根據本實施例的可穿戴裝置100c包含感測器單元210、控制單元220、顯示單元610以及通信單元1810。The wearable device 100c according to the present embodiment includes a sensor unit 210, a control unit 220, a display unit 610, and a communication unit 1810.

感測器單元210獲得可穿戴裝置100c的狀態資訊且包含能夠獲得可穿戴裝置100c的狀態資訊的至少一個感測器。The sensor unit 210 obtains status information of the wearable device 100c and includes at least one sensor capable of obtaining status information of the wearable device 100c.

控制單元220控制可穿戴裝置100c的一般操作。根據本實施例的控制單元220基於自感測器單元210輸出的狀態資訊判定穿戴可穿戴裝置100c的使用者正在駕駛。若使用者正在駕駛，則控制單元220改變可穿戴裝置100c的至少一個功能的設定，或執行可穿戴裝置100c的至少一個功能。The control unit 220 controls the general operation of the wearable device 100c. The control unit 220 according to the present embodiment determines that the user wearing the wearable device 100c is driving based on the status information output from the sensor unit 210. If the user is driving, the control unit 220 changes the setting of at least one function of the wearable device 100c, or performs at least one function of the wearable device 100c.

舉例而言，顯示單元610顯示可穿戴裝置100c的狀態資訊以及應用程式的執行畫面。顯示單元610包含（例如）LCD裝置或有機電致發光顯示裝置，且可根據可穿戴裝置100c的類型以各種位置以及形式來實施。For example, the display unit 610 displays status information of the wearable device 100c and an execution screen of the application. The display unit 610 includes, for example, an LCD device or an organic electroluminescence display device, and can be implemented in various positions and forms depending on the type of the wearable device 100c.

通信單元1810與外部裝置通信，諸如，藉由與外部裝置交換資料、控制信號或狀態信號。通信單元1810提供多個通信，且由通信單元1810提供的通信的類型可變化。The communication unit 1810 communicates with an external device, such as by exchanging data, control signals, or status signals with an external device. Communication unit 1810 provides a plurality of communications, and the type of communication provided by communication unit 1810 can vary.

圖19說明根據本實施例的可穿戴裝置100c與外部裝置1910a、1910b以及1910c通信的實例。FIG. 19 illustrates an example in which the wearable device 100c according to the present embodiment communicates with the external devices 1910a, 1910b, and 1910c.

外部裝置1910a、1910b以及1910c指示使用者所在的載具1910b、智慧型電話1910a、平板PC以及另一可穿戴裝置1910c或其組合中的一或多者。當可穿戴裝置100c與外部裝置1910a、1910b以及1910c通信時，可穿戴裝置100c控制、將資訊提供至或使用外部裝置1910a、1910b以及1910c中的至少一者。貫穿本說明書，載具1910b可指示全部載具，或安裝在載具中的計算裝置。計算裝置可在載具的製造期間由載具製造公司安裝在載具中，或可由不同於載具製造公司的另一製造商製造且由使用者安裝在載具中。計算裝置監視載具的操作，且電子式地控制載具的操作。The external devices 1910a, 1910b, and 1910c indicate one or more of the carrier 1910b, the smart phone 1910a, the tablet PC, and another wearable device 1910c, or a combination thereof, in which the user is located. When the wearable device 100c communicates with the external devices 1910a, 1910b, and 1910c, the wearable device 100c controls, provides information to, or uses at least one of the external devices 1910a, 1910b, and 1910c. Throughout the specification, the carrier 1910b can indicate all of the vehicles, or computing devices that are mounted in the carrier. The computing device may be mounted in the carrier by the carrier manufacturing company during manufacture of the carrier, or may be manufactured by another manufacturer other than the carrier manufacturing company and installed by the user in the carrier. The computing device monitors the operation of the carrier and electronically controls the operation of the carrier.

圖20說明根據本發明的實施例的通信單元1810a的結構。通信單元1810a可為圖18中說明的通信單元1810。Figure 20 illustrates the structure of a communication unit 1810a in accordance with an embodiment of the present invention. Communication unit 1810a can be communication unit 1810 illustrated in FIG.

根據本實施例的通信單元1810a包含Bluetooth®模組2010、Wi-Fi模組2020、NFC模組2030以及行動通信模組2040或其組合中的至少一者。行動通信模組2040藉由使用行動通信網路傳輸且接收呼叫以及本文訊息，且藉由使用行動通信網路執行資料通信。行動通信網路使用包含分碼多重存取（Code Division Multiple Access；CDMA）、全球行動通信系統（Global system for Mobile communication；GSM）或個人數位蜂巢式（Personal Digital Cellular；PCD）的第二代（2G）行動通信、包含國際行動電信2000（International Mobile Telecommunication 2000；IMT-2000）、寬頻分碼多重存取（Wideband Code Division Multiple Access；W-CDMA）或分碼多重存取2000（Code Division Multiple Access 2000；CDMA2000）的第三代（3G）行動通信以及包含長期演進（Long Term Evolution；LTE）或進階型長期演進（Long Term Evolution advanced；LTE-A）的***（4G）行動通信中的至少一者。The communication unit 1810a according to the present embodiment includes at least one of a Bluetooth® module 2010, a Wi-Fi module 2020, an NFC module 2030, and a mobile communication module 2040, or a combination thereof. The mobile communication module 2040 transmits and receives the call and the message herein by using the mobile communication network, and performs data communication by using the mobile communication network. The mobile communication network uses a second generation (including Code Division Multiple Access (CDMA), Global System for Mobile communication (GSM), or Personal Digital Cellular (PCD). 2G) Mobile communications, including International Mobile Telecommunication 2000 (IMT-2000), Wideband Code Division Multiple Access (W-CDMA) or Code Division Multiple Access (Code Division Multiple Access) 2000; CDMA2000) third-generation (3G) mobile communications and fourth-generation (4G) mobile communications including Long Term Evolution (LTE) or Long Term Evolution advanced (LTE-A) At least one of them.

圖21說明根據本發明的實施例的控制可穿戴裝置100c的方法。Figure 21 illustrates a method of controlling a wearable device 100c in accordance with an embodiment of the present invention.

當在步驟S2102中根據本實施例的可穿戴裝置100c判定穿戴可穿戴裝置100c的使用者正在駕駛時，在步驟S2104中，可穿戴裝置100c將指示駕駛的資訊傳輸至外部裝置1910a。外部裝置1910a可為（例如）智慧型電話或平板PC。When the wearable device 100c according to the present embodiment determines in step S2102 that the user wearing the wearable device 100c is driving, in step S2104, the wearable device 100c transmits information indicating driving to the external device 1910a. The external device 1910a can be, for example, a smart phone or a tablet PC.

根據本實施例，可穿戴裝置100c將指示駕駛的資訊以及用於改變外部裝置1910a的操作模式的控制信號傳輸至外部裝置1910a。可穿戴裝置100c控制外部裝置1910a將外部裝置1910a的模式改變至（例如）駕駛、省電或通知防止模式。According to the present embodiment, the wearable device 100c transmits information indicating driving and a control signal for changing the operation mode of the external device 1910a to the external device 1910a. The wearable device 100c controls the external device 1910a to change the mode of the external device 1910a to, for example, a driving, power saving, or notification prevention mode.

根據本實施例，當外部裝置1910a自可穿戴裝置100c接收指示駕駛的資訊時，在步驟S2106中，外部裝置1910a將外部裝置1910a的操作模式改變至使用者正在駕駛時執行的預定模式。舉例而言，當外部裝置1910a自可穿戴裝置100c接收指示駕駛的資訊時，外部裝置1910a將外部裝置1910a的操作模式改變至（例如）駕駛模式、省電模式、通知防止模式。According to the present embodiment, when the external device 1910a receives the information indicating the driving from the wearable device 100c, in step S2106, the external device 1910a changes the operation mode of the external device 1910a to the predetermined mode that the user is performing while driving. For example, when the external device 1910a receives information indicating driving from the wearable device 100c, the external device 1910a changes the operation mode of the external device 1910a to, for example, a driving mode, a power saving mode, and a notification prevention mode.

根據本實施例，當歸因於可穿戴裝置100c而改變外部裝置1910a的操作模式時，外部裝置1910a使可穿戴裝置100c執行外部裝置1910a的操作中的一些。舉例而言，當可穿戴裝置100c通知外部裝置1910a使用者正在駕駛且外部裝置經控制以改變其操作模式時，外部裝置1910a按可穿戴裝置100c替代外部裝置1910a提供通知的方式操作。According to the present embodiment, when the operation mode of the external device 1910a is changed due to the wearable device 100c, the external device 1910a causes the wearable device 100c to perform some of the operations of the external device 1910a. For example, when the wearable device 100c notifies the external device 1910a that the user is driving and the external device is controlled to change its operation mode, the external device 1910a operates in a manner that the wearable device 100c provides a notification instead of the external device 1910a.

根據另一實施例，當外部裝置1910a自可穿戴裝置100c接收用於改變操作模式的控制信號時，外部裝置1910a根據接收的控制信號改變其操作模式。According to another embodiment, when the external device 1910a receives a control signal for changing the operation mode from the wearable device 100c, the external device 1910a changes its operation mode according to the received control signal.

圖22說明根據本發明的實施例的可穿戴裝置100c以及外部裝置1910b。Figure 22 illustrates a wearable device 100c and an external device 1910b in accordance with an embodiment of the present invention.

在圖22中，當可穿戴裝置100c判定穿戴可穿戴裝置100c的使用者正在駕駛時，可穿戴裝置100c去中斷通信單元1810b中包含的一些通信模組且啟動通信單元1810b中的其他通信模組。舉例而言，當通信單元1810b包含Wi-Fi模組2020、NFC模組2030以及Bluetooth®模組2010時，若可穿戴裝置100c判定可穿戴裝置100c的使用者正在駕駛，則可穿戴裝置100c去中斷可穿戴裝置100c的Wi-Fi模組2020以及NFC模組2030，且啟動Bluetooth®模組2010。根據本實施例，外部裝置1910b包含藍牙模組2210且為載具，且載具1910b的Bluetooth®模組2210與可穿戴裝置100c的Bluetooth®模組2010通信。In FIG. 22, when the wearable device 100c determines that the user wearing the wearable device 100c is driving, the wearable device 100c interrupts some of the communication modules included in the communication unit 1810b and activates other communication modules in the communication unit 1810b. . For example, when the communication unit 1810b includes the Wi-Fi module 2020, the NFC module 2030, and the Bluetooth® module 2010, if the wearable device 100c determines that the user of the wearable device 100c is driving, the wearable device 100c goes The Wi-Fi module 2020 and the NFC module 2030 of the wearable device 100c are interrupted, and the Bluetooth® module 2010 is activated. According to the present embodiment, the external device 1910b includes the Bluetooth module 2210 and is a carrier, and the Bluetooth® module 2210 of the carrier 1910b communicates with the Bluetooth® module 2010 of the wearable device 100c.

根據本實施例，當可穿戴裝置100c判定可穿戴裝置100c的使用者正在駕駛時，可穿戴裝置100c去中斷在駕駛期間很少使用的提供通信的通信模組，藉此減少可穿戴裝置100c的功率消耗。According to the present embodiment, when the wearable device 100c determines that the user of the wearable device 100c is driving, the wearable device 100c interrupts the communication module providing communication that is rarely used during driving, thereby reducing the wearable device 100c. Power consumption.

圖23說明根據本發明的另一實施例的可穿戴裝置100c以及外部裝置1910b。Figure 23 illustrates a wearable device 100c and an external device 1910b in accordance with another embodiment of the present invention.

在圖23中，當可穿戴裝置100c判定使用者正在駕駛時，可穿戴裝置100c使用為載具的外部裝置1910b中包含的輸出單元2310。舉例而言，當可穿戴裝置100c判定使用者正在駕駛時，可穿戴裝置100c使用載具1910b的輸出單元2310中包含的揚聲器2312以及顯示單元2314。舉例而言，可穿戴裝置100c藉由使用載具1910b中包含的揚聲器2312輸出音樂、聲音通知以及導航導引語音，且在載具1910b中包含的顯示單元2314上顯示導航螢幕、本文訊息的內容以及通知內容。In FIG. 23, when the wearable device 100c determines that the user is driving, the wearable device 100c uses the output unit 2310 included in the external device 1910b of the carrier. For example, when the wearable device 100c determines that the user is driving, the wearable device 100c uses the speaker 2312 and the display unit 2314 included in the output unit 2310 of the carrier 1910b. For example, the wearable device 100c outputs music, sound notification, and navigation guidance voice by using the speaker 2312 included in the carrier 1910b, and displays the navigation screen and the content of the message on the display unit 2314 included in the carrier 1910b. And the content of the notice.

圖24說明根據本發明的另一實施例的控制可穿戴裝置100c的方法。Figure 24 illustrates a method of controlling a wearable device 100c in accordance with another embodiment of the present invention.

當根據圖24的可穿戴裝置100c判定穿戴可穿戴裝置100c的使用者正在駕駛時，可穿戴裝置100c將自載具收集的資訊提供至（例如）智慧型電話或平板PC。在步驟S2402中，當可穿戴裝置100c判定使用者正在駕駛時，在步驟S2404中，可穿戴裝置100c向載具1910b請求狀態資訊以及駕駛資訊。舉例而言，狀態資訊包含識別資訊、載具模型、剩餘燃料的量、可能的駕駛距離、燃料效率以及載具1910b的速度。駕駛資訊包含（例如）駕駛距離以及目的地。When the wearable device 100c according to FIG. 24 determines that the user wearing the wearable device 100c is driving, the wearable device 100c provides information collected from the carrier to, for example, a smart phone or tablet PC. In step S2402, when the wearable device 100c determines that the user is driving, in step S2404, the wearable device 100c requests status information and driving information from the vehicle 1910b. For example, the status information includes identification information, vehicle model, amount of remaining fuel, possible driving distance, fuel efficiency, and speed of the vehicle 1910b. Driving information includes, for example, driving distance and destination.

在實施例中，自可穿戴裝置100c傳輸至載具1910b的對狀態資訊以及駕駛資訊的請求包含資訊請求信號以及關於將提供資訊的裝置的資訊（諸如，裝置的類型、裝置的識別符以及用於建立通信的位址）。在另一實施例中，自可穿戴裝置100c傳輸至載具1910b的對狀態資訊以及駕駛資訊的請求包含資訊請求信號、請求的資訊的類型以及關於將提供資訊的裝置的資訊。In an embodiment, the request for status information and driving information transmitted from the wearable device 100c to the vehicle 1910b includes an information request signal and information about the device that will provide the information (such as the type of device, the identifier of the device, and In the establishment of the address of the communication). In another embodiment, the request for status information and driving information transmitted from the wearable device 100c to the vehicle 1910b includes an information request signal, a type of information requested, and information about the device that will provide the information.

當載具1910b接收到對狀態資訊以及駕駛資訊的請求時，在步驟S2406中，載具1910b將狀態資訊以及駕駛資訊傳輸至可穿戴裝置100c、智慧型電話1910a以及平板PC或其組合中的至少一者。When the vehicle 1910b receives the request for status information and driving information, the vehicle 1910b transmits the status information and the driving information to at least the wearable device 100c, the smart phone 1910a, and the tablet PC or a combination thereof in step S2406. One.

已接收狀態資訊以及駕駛資訊的裝置在步驟S2408中管理狀態資訊以及駕駛資訊。舉例而言，智慧型電話1910a藉由使用狀態資訊以及駕駛資訊產生載具管理筆記，如圖24中所繪示。The device that has received the status information and the driving information manages the status information and the driving information in step S2408. For example, the smart phone 1910a generates a vehicle management note by using status information and driving information, as illustrated in FIG.

圖25說明根據本發明的實施例的判定如圖2中繪示的可穿戴裝置100a的使用者是否正在駕駛的方法。FIG. 25 illustrates a method of determining whether a user of the wearable device 100a as depicted in FIG. 2 is driving, in accordance with an embodiment of the present invention.

在步驟S2502中，可穿戴裝置100a偵測振動。根據本實施例，可穿戴裝置100a的感測器單元210包含加速度感測器，且藉由使用由加速度感測器偵測的感測值來偵測振動。In step S2502, the wearable device 100a detects vibration. According to the present embodiment, the sensor unit 210 of the wearable device 100a includes an acceleration sensor and detects vibration by using the sensed value detected by the acceleration sensor.

在步驟S2504中，可穿戴裝置100a比較偵測的振動與預儲存的振動圖案。預儲存的振動圖案指示歸因於載具的引擎以及道路的表面而產生的載具的振動的圖案。當使用者在使用者穿戴可穿戴裝置100a時駕駛載具時，載具的振動經由使用者的身體經傳輸至可穿戴裝置100a。當使用者在使用者正在駕駛時握住方向盤時，載具的振動經由方向盤以及身體傳輸至可穿戴裝置100a。In step S2504, the wearable device 100a compares the detected vibration with the pre-stored vibration pattern. The pre-stored vibration pattern indicates a pattern of vibration of the carrier due to the engine of the vehicle and the surface of the road. When the user drives the vehicle while the user wears the wearable device 100a, the vibration of the vehicle is transmitted to the wearable device 100a via the user's body. When the user holds the steering wheel while the user is driving, the vibration of the carrier is transmitted to the wearable device 100a via the steering wheel and the body.

當偵測的振動等於或類似於預儲存的振動圖案時，在步驟S2506中，可穿戴裝置100a判定使用者正在駕駛。偵測的振動等於或類似於預儲存的振動圖案的事實指示偵測的振動與預儲存的振動圖案之間的差等於或小於預設定參考值。根據本實施例，當偵測的振動與預儲存的振動圖案之間的相關性的值等於或大於預設定參考值時，可穿戴裝置100a判定使用者正在駕駛。When the detected vibration is equal to or similar to the pre-stored vibration pattern, the wearable device 100a determines that the user is driving in step S2506. The fact that the detected vibration is equal to or similar to the pre-stored vibration pattern indicates that the difference between the detected vibration and the pre-stored vibration pattern is equal to or less than a preset reference value. According to the present embodiment, when the value of the correlation between the detected vibration and the pre-stored vibration pattern is equal to or larger than the preset reference value, the wearable device 100a determines that the user is driving.

圖26說明根據本發明的實施例的判定可穿戴裝置100a的使用者是否正在駕駛的方法。FIG. 26 illustrates a method of determining whether a user of the wearable device 100a is driving, in accordance with an embodiment of the present invention.

在圖26中，可穿戴裝置100a偵測振動，將振動與儲存的振動圖案比較，且根據比較結果，判定可穿戴裝置100a的使用者是否正在駕駛。舉例而言，如圖26中所說明，當穿戴可穿戴裝置100a的使用者握住載具的方向盤2610時，載具的振動經由方向盤2610傳輸且由可穿戴裝置100a偵測。In FIG. 26, the wearable device 100a detects vibration, compares the vibration with the stored vibration pattern, and determines whether the user of the wearable device 100a is driving based on the comparison result. For example, as illustrated in FIG. 26, when a user wearing the wearable device 100a holds the steering wheel 2610 of the carrier, the vibration of the carrier is transmitted via the steering wheel 2610 and detected by the wearable device 100a.

經由載具的方向盤2610傳輸的振動的強度固有地高於傳輸至除司機外的乘客的振動的強度。根據本實施例，可穿戴裝置100a藉由不僅考慮偵測的振動的圖案且亦考慮振動的強度來判定使用者是否正在駕駛。舉例而言，即使偵測的振動的圖案等於或類似於預儲存的振動圖案，當振動的強度小於參考值時，可穿戴裝置100a仍判定使用者未在駕駛，且在偵測的振動的圖案等於或類似於預儲存的振動圖案且振動的強度等於或大於參考值的情況下，可穿戴裝置100a判定使用者正在駕駛。The intensity of the vibration transmitted via the steering wheel 2610 of the carrier is inherently higher than the intensity of the vibration transmitted to the passengers other than the driver. According to the present embodiment, the wearable device 100a determines whether the user is driving by considering not only the pattern of the detected vibration but also the intensity of the vibration. For example, even if the detected pattern of vibration is equal to or similar to the pre-stored vibration pattern, when the intensity of the vibration is less than the reference value, the wearable device 100a determines that the user is not driving, and the pattern of the detected vibration The wearable device 100a determines that the user is driving, equal to or similar to the pre-stored vibration pattern and the intensity of the vibration is equal to or greater than the reference value.

圖27（a）至圖27（b）說明根據本發明的實施例的可穿戴裝置100b的結構。27(a) to 27(b) illustrate the structure of the wearable device 100b according to an embodiment of the present invention.

在圖27（a）至圖27（b）中，可穿戴裝置100b以智慧型手錶來實施。在此情況下，感測器單元210的感測器可安置於錶盤2730的後表面處、錶帶2710的內圓周表面處，或連接部分2726處。舉例而言，可將心率感測器、溫度感測器、汗水感測器、血壓感測器或接近性感測器安置於錶盤2730的後表面2722下方或錶帶2710的內圓周表面2724處。可將能夠感測連接狀態的傳導性感測器、霍爾（Hall）感測器或磁性感測器安置在連接部分2726處。可將觸控式螢幕安置在錶盤2730的前表面處。此外，可將加速度感測器、陀螺儀感測器、照明感測器、磁場感測器（例如）安置在各種位置處。In FIGS. 27(a) to 27(b), the wearable device 100b is implemented as a smart watch. In this case, the sensor of the sensor unit 210 may be disposed at the rear surface of the dial 2730, at the inner circumferential surface of the band 2710, or at the connecting portion 2726. For example, a heart rate sensor, temperature sensor, sweat sensor, blood pressure sensor, or proximity sensor can be placed under the rear surface 2722 of the dial 2730 or at the inner circumferential surface 2724 of the strap 2710. A conduction sensor, a Hall sensor, or a magnetic sensor capable of sensing the connection state may be disposed at the connection portion 2726. A touch screen can be placed at the front surface of the dial 2730. Further, an acceleration sensor, a gyro sensor, an illumination sensor, a magnetic field sensor (for example) may be placed at various locations.

在形成為智慧型手錶的可穿戴裝置100b中，可自錶盤2730剝離錶帶2710。在此情況下，可將感測器安置在錶帶2710或錶盤2730的連接部分處，以便偵測錶帶2710與錶盤2730之間的連接。In the wearable device 100b formed as a smart watch, the watch band 2710 can be peeled off from the dial 2730. In this case, the sensor can be placed at the connection portion of the strap 2710 or the dial 2730 to detect the connection between the strap 2710 and the dial 2730.

智慧型手錶的控制單元220藉由使用加速度感測器來偵測振動，且藉由使用陀螺儀感測器來偵測使用者的移動。The control unit 220 of the smart watch detects vibration by using an acceleration sensor and detects the movement of the user by using a gyro sensor.

智慧型手錶的控制單元220判定智慧型手錶是否在被穿戴狀態中（意即，是否正在被穿戴），例如，基於連接部分2726是否被連接以及諸如心率感測器的生物感測器的偵測值。The control unit 220 of the smart watch determines whether the smart watch is in the worn state (ie, whether it is being worn), for example, based on whether the connection portion 2726 is connected and the detection of a biosensor such as a heart rate sensor value.

圖28說明根據本發明的實施例的可穿戴裝置100a的結構。Figure 28 illustrates the structure of a wearable device 100a in accordance with an embodiment of the present invention.

在圖28中，可穿戴裝置100a是以智慧型手鐲（或智慧型帶）來實施。舉例而言，可將感測器安置於主體2810、連接部分2820或內圓周表面2830處。安置在主體2810處的感測器可包含加速度感測器、陀螺儀感測器、運動感測器、磁場感測器或位置偵測模組，安置在連接部分2820處的感測器可包含用於感測連接的傳導性感測器、霍爾感測器或磁性感測器，且安置在內圓周表面2830處的感測器可包含溫度感測器或心率感測器。In Fig. 28, the wearable device 100a is implemented as a smart bracelet (or smart belt). For example, the sensor can be placed at the body 2810, the connecting portion 2820, or the inner circumferential surface 2830. The sensor disposed at the main body 2810 may include an acceleration sensor, a gyro sensor, a motion sensor, a magnetic field sensor or a position detecting module, and the sensor disposed at the connecting portion 2820 may include A conductive sensor, a Hall sensor, or a magnetic sensor for sensing connections, and the sensor disposed at the inner circumferential surface 2830 can include a temperature sensor or a heart rate sensor.

圖29說明根據本發明的另一實施例的可穿戴裝置100b的結構。Figure 29 illustrates the structure of a wearable device 100b in accordance with another embodiment of the present invention.

在圖29中，可穿戴裝置100b是以智慧型戒指來實施，且可安置於（例如）顯示單元2910、主體2920、內圓周表面2930或外圓周表面2940處。觸控式螢幕可安置於顯示單元2910處，溫度感測器或心率感測器可安置於內圓周表面2930處，加速度感測器、陀螺儀感測器、磁場感測器、位置偵測模組、運動感測器或照明感測器可安置於智慧型戒指的主體2920處，且觸控感測器可安置於外圓周表面2940處。In FIG. 29, the wearable device 100b is implemented as a smart ring and can be disposed, for example, at the display unit 2910, the main body 2920, the inner circumferential surface 2930, or the outer circumferential surface 2940. The touch screen can be disposed at the display unit 2910, and the temperature sensor or the heart rate sensor can be disposed at the inner circumferential surface 2930. The acceleration sensor, the gyro sensor, the magnetic field sensor, and the position detecting module The set, motion sensor or illumination sensor can be placed at the body 2920 of the smart ring, and the touch sensor can be placed at the outer circumferential surface 2940.

圖30說明根據本發明的另一實施例的可穿戴裝置100a的結構。Figure 30 illustrates the structure of a wearable device 100a in accordance with another embodiment of the present invention.

在圖30中，可穿戴裝置100a是以耳機來實施，且感測器可安置於（例如）外圓周部分3010或振動板3020處。意即，心率感測器可安置於外圓周部分3010處，溫度感測器可安置於振動板3020處，且加速度感測器、陀螺儀感測器或磁場感測器可安置於頭戴式受話器的外圓周部分3010或主體3030處。In FIG. 30, the wearable device 100a is implemented with an earphone, and the sensor can be disposed at, for example, the outer circumferential portion 3010 or the vibration plate 3020. That is, the heart rate sensor can be disposed at the outer circumferential portion 3010, the temperature sensor can be disposed at the vibration plate 3020, and the acceleration sensor, the gyro sensor, or the magnetic field sensor can be disposed on the headwear The outer circumferential portion 3010 or the main body 3030 of the receiver.

圖31說明根據本發明的另一實施例的可穿戴裝置100a的結構。Figure 31 illustrates the structure of a wearable device 100a in accordance with another embodiment of the present invention.

在圖31中，可穿戴裝置100a是以衣物來實施。溫度感測器或心率感測器可安置於內側，且加速度感測器、陀螺儀感測器、位置偵測模組或磁場感測器可安置於各種位置處。In Fig. 31, the wearable device 100a is implemented as clothes. The temperature sensor or the heart rate sensor can be disposed on the inner side, and the acceleration sensor, the gyro sensor, the position detecting module, or the magnetic field sensor can be disposed at various positions.

圖32說明根據本發明的實施例的判定可穿戴裝置100a的使用者是否正在駕駛的方法。FIG. 32 illustrates a method of determining whether a user of the wearable device 100a is driving, according to an embodiment of the present invention.

在圖32中，可穿戴裝置100a基於偵測的移動判定使用者是否正在駕駛。In FIG. 32, the wearable device 100a determines whether the user is driving based on the detected movement.

在步驟S3202中，可穿戴裝置100a偵測移動，例如，以移動圖案或旋轉角的形式。可藉由使用可穿戴裝置100a的感測器單元210中包含的加速度感測器、陀螺儀感測器或運動感測器來偵測移動。In step S3202, the wearable device 100a detects the movement, for example, in the form of a moving pattern or a rotation angle. The movement can be detected by using an acceleration sensor, a gyro sensor, or a motion sensor included in the sensor unit 210 of the wearable device 100a.

在步驟S3204中，可穿戴裝置100a藉由計算偵測的移動與儲存的移動圖案之間的差或藉由執行相關性計算來比較偵測的移動與儲存的移動圖案。In step S3204, the wearable device 100a compares the detected moving and stored moving patterns by calculating the difference between the detected movement and the stored moving pattern or by performing a correlation calculation.

當偵測的移動與儲存的移動圖案相互相等或類似時，在步驟S3206中，可穿戴裝置100a判定使用者正在駕駛。When the detected movement and the stored movement pattern are equal or similar to each other, in step S3206, the wearable device 100a determines that the user is driving.

圖33說明根據本發明的實施例的判定使用者是否正在駕駛的方法。Figure 33 illustrates a method of determining if a user is driving, in accordance with an embodiment of the present invention.

在圖33中，可穿戴裝置100b藉由偵測轉動方向盤的運動來判定使用者正在駕駛。如圖33中所說明，當使用者正在駕駛時，發生方向盤的大轉動運動。轉動方向盤的運動使可穿戴裝置100b沿著方向盤的圓形形狀移動。可穿戴裝置100b藉由使用加速度感測器、陀螺儀感測器或運動感測器來偵測運動的圖案，且若運動的偵測到的形式類似於轉動方向盤的預儲存的運動，則可穿戴裝置100b判定使用者正在駕駛。根據本實施例，可穿戴裝置100b藉由使用加速度感測器來偵測旋轉角，且若旋轉角等於或類似於預儲存的旋轉角，可穿戴裝置100b判定使用者正在駕駛。In Fig. 33, the wearable device 100b determines that the user is driving by detecting the movement of the steering wheel. As illustrated in Figure 33, a large rotational movement of the steering wheel occurs when the user is driving. Rotation of the steering wheel causes the wearable device 100b to move along the circular shape of the steering wheel. The wearable device 100b detects the motion pattern by using an acceleration sensor, a gyro sensor, or a motion sensor, and if the detected form of the motion is similar to the pre-stored motion of the steering wheel, The wearable device 100b determines that the user is driving. According to the present embodiment, the wearable device 100b detects the rotation angle by using the acceleration sensor, and if the rotation angle is equal to or similar to the pre-stored rotation angle, the wearable device 100b determines that the user is driving.

根據本實施例，當在大於參考時間週期或多於參考次數內偵測到具有等於或類似於預儲存的旋轉角的形式的運動時，可穿戴裝置100b判定使用者正在駕駛。According to the present embodiment, when motion in a form equal to or similar to the pre-stored rotation angle is detected for more than the reference time period or more than the reference number, the wearable device 100b determines that the user is driving.

根據本實施例，可穿戴裝置100b考慮偵測的振動以及偵測的運動來判定使用者正在駕駛。舉例而言，當偵測的振動類似於預儲存的振動圖案且偵測的運動類似於預儲存的運動圖案時，可穿戴裝置100b判定使用者正在駕駛。According to the present embodiment, the wearable device 100b determines that the user is driving in consideration of the detected vibration and the detected motion. For example, when the detected vibration is similar to the pre-stored vibration pattern and the detected motion is similar to the pre-stored motion pattern, the wearable device 100b determines that the user is driving.

圖34說明根據本發明的實施例的判定使用者是否正在駕駛的方法。Figure 34 illustrates a method of determining if a user is driving, in accordance with an embodiment of the present invention.

在圖34中，可穿戴裝置100a是以偵測在載具踏板3410上步進或按壓載具踏板的移動的鞋來實施，且判定使用者正在駕駛。當使用者在駕駛時重複在載具踏板3410上步進或按壓載具踏板的移動時（如圖34中所說明），自鞋的外底的後以及底部部分在上下方向上的旋轉移動發生在形成為鞋的可穿戴裝置100a處。在上下方向上的旋轉移動在一角度內發生。舉例而言，當使用者正在駕駛時，可在零度至90度的範圍內偵測到在可穿戴裝置100a的上下方向上的旋轉移動，在所述情況下，形成為鞋的可穿戴裝置100a判定使用者正在駕駛。關於在上下方向上的旋轉移動的資訊可預儲存在可穿戴裝置100a中。In FIG. 34, the wearable device 100a is implemented by detecting a shoe that steps or presses the movement of the carrier pedal on the carrier pedal 3410, and determines that the user is driving. When the user repeatedly steps or presses the movement of the carrier pedal on the carrier pedal 3410 while driving (as illustrated in FIG. 34), the rotational movement in the up and down direction from the rear and bottom portions of the outsole of the shoe occurs. At the wearable device 100a formed as a shoe. The rotational movement in the up and down direction occurs within an angle. For example, when the user is driving, a rotational movement in the up and down direction of the wearable device 100a can be detected in a range of zero to 90 degrees, in which case the wearable device 100a formed as a shoe It is determined that the user is driving. Information about the rotational movement in the up and down direction may be pre-stored in the wearable device 100a.

根據本實施例，當在大於參考時間週期或多於參考次數內偵測到在上下方向上的旋轉移動時，形成為鞋的可穿戴裝置100a判定使用者正在駕駛。According to the present embodiment, when the rotational movement in the up and down direction is detected within a reference time period or more than the reference number, the wearable device 100a formed as a shoe determines that the user is driving.

根據本實施例，可穿戴裝置100a的感測器單元210包含加速度感測器或陀螺儀感測器，藉由加速度感測器或陀螺儀感測器，可穿戴裝置100a偵測在上下方向上的旋轉移動。According to the embodiment, the sensor unit 210 of the wearable device 100a includes an acceleration sensor or a gyro sensor. The wearable device 100a detects the up and down direction by using an acceleration sensor or a gyro sensor. The rotation moves.

圖35說明根據本發明的另一實施例的判定使用者是否正在駕駛的方法。Figure 35 illustrates a method of determining whether a user is driving, in accordance with another embodiment of the present invention.

在圖35中，可穿戴裝置100a是以偵測多個載具踏板3410a與3410b之間的移動的鞋來實施，且因此判定使用者正在駕駛。當使用者正在駕駛時，發生使用者在多個載具踏板3410a與3410b之間的移動的運動，且如圖35中所說明，自鞋的外底的後以及底部部分在左右方向上的旋轉移動發生在形成為鞋的可穿戴裝置100a處。當使用者正在駕駛時，在左右方向上的旋轉移動在一角度內發生。舉例而言，當使用者正在駕駛時，可偵測到在90度內的可穿戴裝置100a在左右方向上的旋轉移動，在所述情況下，形成為鞋的可穿戴裝置100a判定使用者正在駕駛。關於在左右方向上的旋轉移動的資訊可預儲存在可穿戴裝置100a中。In FIG. 35, the wearable device 100a is implemented with a shoe that detects movement between the plurality of carrier pedals 3410a and 3410b, and thus determines that the user is driving. When the user is driving, the movement of the user between the plurality of carrier pedals 3410a and 3410b occurs, and as illustrated in FIG. 35, the rear and bottom portions of the outer sole of the shoe rotate in the left-right direction. Movement occurs at the wearable device 100a formed as a shoe. When the user is driving, the rotational movement in the left and right direction occurs within an angle. For example, when the user is driving, the rotational movement of the wearable device 100a in the left-right direction within 90 degrees can be detected, in which case the wearable device 100a formed as a shoe determines that the user is drive. Information about the rotational movement in the left and right direction may be pre-stored in the wearable device 100a.

根據本實施例，當在大於參考時間週期或多於參考次數內偵測到在左右方向上的旋轉移動時，形成為鞋的可穿戴裝置100a判定使用者正在駕駛。According to the present embodiment, when the rotational movement in the left-right direction is detected within a reference time period or more than the reference number, the wearable device 100a formed as a shoe determines that the user is driving.

根據本實施例，可穿戴裝置100a的感測器單元210包含加速度感測器或陀螺儀感測器，且藉由使用加速度感測器或陀螺儀感測器偵測在左右方向上的旋轉運動。According to the embodiment, the sensor unit 210 of the wearable device 100a includes an acceleration sensor or a gyro sensor, and detects a rotational motion in the left and right direction by using an acceleration sensor or a gyro sensor. .

圖36說明根據本發明的實施例的判定使用者是否正在駕駛的方法。Figure 36 illustrates a method of determining if a user is driving, in accordance with an embodiment of the present invention.

在圖36中，可穿戴裝置100a的感測器單元210包含相機。當偵測到預儲存在可穿戴裝置100a中的場景時，可穿戴裝置100a判定使用者正在駕駛。In FIG. 36, the sensor unit 210 of the wearable device 100a includes a camera. When a scene pre-stored in the wearable device 100a is detected, the wearable device 100a determines that the user is driving.

在步驟S3602中，可穿戴裝置100a藉由使用相機執行拍照。拍攝的場景可根據相機在可穿戴裝置100a處的位置以及使用者的狀態而變化。舉例而言，當可穿戴裝置100a以眼鏡來實施且相機安置於眼鏡的前部分時，可穿戴裝置100a拍攝在使用者的檢視方向上的場景。作為另一實例，當可穿戴裝置100a是以腕錶或手鐲來實施且相機安置於錶帶處時，可穿戴裝置100a拍攝在使用者的左方向或右方向上的場景。In step S3602, the wearable device 100a performs photographing by using a camera. The scene taken may vary depending on the position of the camera at the wearable device 100a and the state of the user. For example, when the wearable device 100a is implemented with glasses and the camera is placed at the front portion of the glasses, the wearable device 100a captures a scene in the viewing direction of the user. As another example, when the wearable device 100a is implemented with a wristwatch or a bracelet and the camera is placed at the band, the wearable device 100a captures a scene in the left or right direction of the user.

在步驟S3604中，可穿戴裝置100a判定是否自拍攝的場景偵測到預儲存的場景。在使用者正在駕駛時，預儲存的場景可為高度可偵測，諸如，方向盤的場景、在載具內部的一組量具或側視鏡。In step S3604, the wearable device 100a determines whether a pre-stored scene is detected from the captured scene. The pre-stored scenes may be highly detectable while the user is driving, such as a scene of the steering wheel, a set of gauges or side mirrors inside the vehicle.

可藉由使用用於場景偵測的各種演算法來執行預儲存的場景與拍攝的場景之間的比較。舉例而言，預儲存的場景繪示該組量具的圓形形式以及漸變的形狀，且可穿戴裝置100a自拍攝的場景偵測圓形形式以及漸變的形狀。對於形狀的比較，可使用相關性技術。A comparison between the pre-stored scene and the captured scene can be performed by using various algorithms for scene detection. For example, the pre-stored scene shows the circular form of the set of gauges and the shape of the gradient, and the wearable device 100a detects the circular form and the shape of the gradient from the captured scene. For comparison of shapes, correlation techniques can be used.

當偵測到預儲存的場景時，在步驟S3606中，可穿戴裝置100a判定使用者正在駕駛。When the pre-stored scene is detected, the wearable device 100a determines that the user is driving in step S3606.

圖37說明根據本發明的另一實施例的判定使用者是否正在駕駛的方法。FIG. 37 illustrates a method of determining whether a user is driving, according to another embodiment of the present invention.

在圖37中，可穿戴裝置100a以眼鏡（或智慧型眼鏡）來實施，且感測器可安置於（例如）眼鏡邊緣3710、眼鏡鏡腿3720、接觸使用者的後頰3730的眼鏡鏡腿的部分、鼻墊3740以及眼鏡鏡片3750處。可將各種感測器安置於各種位置處，諸如，安置於眼鏡邊緣3710或眼鏡鏡腿3720處的觸控感測器、安置於接觸使用者的後頰3730的眼鏡鏡腿的部分處的脈博感測器、安置於鼻墊3740處的加速度感測器或觸控感測器或安置於眼鏡鏡片3750處的虹膜感測器。根據本實施例，相機3760可安置於眼鏡鏡腿3720或眼鏡邊緣3710的預設定位置處。In FIG. 37, the wearable device 100a is implemented with glasses (or smart glasses), and the sensor can be placed, for example, on the eyeglass edge 3710, the eyeglass temple 3720, the eyeglass temple that contacts the user's back cheek 3730. The portion, the nose pad 3740, and the eyeglass lens 3750. Various sensors can be placed at various locations, such as a touch sensor disposed at the eyeglass edge 3710 or the eyeglass temple 3720, a pulse disposed at a portion of the eyeglass temple that contacts the user's back cheek 3730. The sensor, the acceleration sensor or touch sensor disposed at the nose pad 3740 or the iris sensor disposed at the eyeglass lens 3750. According to the present embodiment, the camera 3760 can be disposed at a predetermined position of the eyeglass temple 3720 or the eyeglass edge 3710.

在圖37中，形成為智慧型眼鏡的可穿戴裝置100a藉由使用相機3760在使用者的檢視方向上捕獲影像，且所捕獲影像經分析以判定使用者是否正在駕駛。舉例而言，如圖37中所說明，載具的該組量規的影像以及側視鏡的影像預儲存於可穿戴裝置100a中。當可穿戴裝置100a偵測到類似於預儲存的影像中的至少一者的所捕獲影像時，可穿戴裝置100a判定使用者正在駕駛。In FIG. 37, the wearable device 100a formed as a smart eyeglass captures an image in the viewing direction of the user by using the camera 3760, and the captured image is analyzed to determine whether the user is driving. For example, as illustrated in FIG. 37, the images of the set of gauges of the vehicle and the images of the side mirrors are pre-stored in the wearable device 100a. When the wearable device 100a detects a captured image that is similar to at least one of the pre-stored images, the wearable device 100a determines that the user is driving.

根據本實施例，可關於載具的模型中的每一者儲存載具的該組量規的影像。舉例而言，A公司的載具模型A的一組量規的影像以及B公司的載具模型B的一組量規的影像可儲存於可穿戴裝置100a中。可穿戴裝置100a基於載具的該組量規的影像辨識載具的模型。According to this embodiment, an image of the set of gauges of the carrier can be stored with respect to each of the models of the vehicle. For example, an image of a set of gauges of the model A of the company A and an image of a set of gauges of the model B of the company B can be stored in the wearable device 100a. The wearable device 100a identifies the model of the vehicle based on the image of the set of gauges of the vehicle.

類似地，可關於載具的模型中的每一者儲存側視鏡的影像。可穿戴裝置100a基於載具的側視鏡的影像辨識載具的模型。Similarly, an image of the side view mirror can be stored with respect to each of the models of the vehicle. The wearable device 100a identifies the model of the vehicle based on the image of the side mirror of the vehicle.

圖38說明根據本發明的另一實施例的判定使用者是否正在駕駛的方法。FIG. 38 illustrates a method of determining whether a user is driving, according to another embodiment of the present invention.

在圖38中，可穿戴裝置100a是以安全帽來實施，且感測器安置於安全帽殼3810、在安全帽100a內部的內襯或護罩3830處。舉例而言，觸控感測器安置於安全帽殼3810或護罩3830處，脈博感測器安置於內襯處，加速度感測器或陀螺儀感測器安置於安全帽殼3810、護罩3830或內襯處，且虹膜感測器安置於護罩3830處。相機3820安置於安全帽殼3810或護罩3830的預設定位置處。In FIG. 38, the wearable device 100a is implemented as a safety helmet, and the sensor is disposed at the safety cap shell 3810, at the inner liner or shroud 3830 inside the hard hat 100a. For example, the touch sensor is disposed at the helmet shell 3810 or the shield 3830, the pulse sensor is disposed at the inner liner, and the acceleration sensor or the gyro sensor is disposed at the helmet shell 3810. The cover 3830 or the lining is located, and the iris sensor is disposed at the shield 3830. The camera 3820 is disposed at a predetermined position of the helmet shell 3810 or the shield 3830.

在圖38的實施例中，可藉由使用相機3820捕獲在使用者的檢視方向上的影像，且所捕獲影像經分析，且用以判定使用者是否正在駕駛。舉例而言，如圖38中所說明，機車的一組量規的影像以及側視鏡的影像預儲存在可穿戴裝置100a中，當可穿戴裝置100a自所捕獲影像偵測到預儲存的影像中的至少一者時，其判定使用者正在駕駛。In the embodiment of FIG. 38, the image in the viewing direction of the user can be captured by using the camera 3820, and the captured image is analyzed and used to determine whether the user is driving. For example, as illustrated in FIG. 38, the image of a set of gauges of the locomotive and the image of the side view mirror are pre-stored in the wearable device 100a, and the wearable device 100a detects the pre-stored image from the captured image. In at least one of them, it is determined that the user is driving.

根據本實施例，可儲存關於每一個機車的模型中的機車的該組量規的影像。舉例而言，A公司的機車模型A的一組量規的影像以及B公司的機車模型B的一組量規的影像中的每一者可儲存在可穿戴裝置100a中。可穿戴裝置100a基於機車的該組量規的影像辨識機車的模型。According to this embodiment, an image of the set of gauges for the locomotive in the model of each locomotive can be stored. For example, each of the images of a set of gauges of the locomotive model A of Company A and the set of gauges of the locomotive model B of Company B can be stored in the wearable device 100a. The wearable device 100a identifies the model of the locomotive based on the image of the set of gauges of the locomotive.

類似地，可儲存關於每一個機車的模型中的側視鏡的影像。可穿戴裝置100a基於機車的側視鏡的影像辨識機車的模型。Similarly, images of the side mirrors in the model of each locomotive can be stored. The wearable device 100a recognizes the model of the locomotive based on the image of the side view mirror of the locomotive.

圖39說明根據本發明的實施例的判定使用者是否正在駕駛的方法。Figure 39 illustrates a method of determining if a user is driving, in accordance with an embodiment of the present invention.

在圖39中，當可穿戴裝置100c進入向可穿戴裝置註冊的載具1910b時，在步驟S3902中，可穿戴裝置100c設定與載具1910b的通信。舉例而言，可穿戴裝置100c建立與載具1910b的無線通信頻道。In FIG. 39, when the wearable device 100c enters the carrier 1910b registered to the wearable device, the wearable device 100c sets communication with the carrier 1910b in step S3902. For example, wearable device 100c establishes a wireless communication channel with carrier 1910b.

在步驟S3904中，可穿戴裝置100c自載具1910b接收載具資訊。載具資訊包含（例如）載具1910b的模型、載具1910b的唯一編號、載具1910b的狀態資訊以及載具1910b的駕駛資訊。載具1910b的唯一編號包含牌照的編號或載具1910b的序號。貫穿說明書，載具1910b可為內嵌於載具1910b中的計算裝置，在所述情況下，載具資訊可為關於內嵌於載具1910b中的裝置的裝置資訊。裝置資訊包含關於（例如）識別值、規範、網路狀態或在裝置中執行的應用程式的資訊。然而，一或多個實施例不限於此。根據本實施例，當設定在可穿戴裝置100c與載具1910b之間的通信時，載具資訊自動地自載具1910b傳輸至可穿戴裝置100c。根據另一實施例，當請求自可穿戴裝置100c傳輸至載具1910b時，將載具資訊自載具1910b傳輸至可穿戴裝置100c。In step S3904, the wearable device 100c receives the vehicle information from the carrier 1910b. The vehicle information includes, for example, the model of the vehicle 1910b, the unique number of the vehicle 1910b, the status information of the vehicle 1910b, and the driving information of the vehicle 1910b. The unique number of the carrier 1910b contains the number of the license plate or the serial number of the vehicle 1910b. Throughout the specification, the carrier 1910b can be a computing device embedded in the carrier 1910b, in which case the vehicle information can be device information about the device embedded in the carrier 1910b. Device information contains information about, for example, identification values, specifications, network status, or applications executing on the device. However, one or more embodiments are not limited thereto. According to the present embodiment, when communication between the wearable device 100c and the carrier 1910b is set, the vehicle information is automatically transmitted from the carrier 1910b to the wearable device 100c. According to another embodiment, when information is requested to be transmitted from the wearable device 100c to the carrier 1910b, the vehicle information is transmitted from the carrier 1910b to the wearable device 100c.

若在步驟S3906中判定載具1910b為經註冊的載具，則在步驟S3908中，可穿戴裝置100c判定使用者正在駕駛。當可穿戴裝置100c接收到載具資訊時，可穿戴裝置100c比較預儲存的載具資訊與接收到的載具資訊，且因此判定載具1910b是否為經註冊的載具。在判定載具1910b是否為經註冊的載具時使用的載具資訊包含（例如）牌照的編號或載具1910b的序號。當設定在可穿戴裝置100c與載具1910b之間的通信時，可穿戴裝置100c自載具1910b接收載具資訊（諸如，關於內嵌於載具1910b中的計算裝置的裝置資訊），且基於接收到的載具資訊判定載具1910b是否經註冊。If it is determined in step S3906 that the carrier 1910b is a registered carrier, then in step S3908, the wearable device 100c determines that the user is driving. When the wearable device 100c receives the vehicle information, the wearable device 100c compares the pre-stored vehicle information with the received vehicle information, and thus determines whether the vehicle 1910b is a registered vehicle. The vehicle information used in determining whether the carrier 1910b is a registered carrier includes, for example, the number of the license plate or the serial number of the vehicle 1910b. When set up for communication between the wearable device 100c and the carrier 1910b, the wearable device 100c receives vehicle information (such as device information embedded in the computing device embedded in the carrier 1910b) from the carrier 1910b, and is based on The received vehicle information determines whether the carrier 1910b is registered.

可穿戴裝置100c藉由使用載具1910b的載具資訊來設定與載具1910b的通信。舉例而言，為了設定與載具1910b的Bluetooth®通信，可穿戴裝置100c藉由接收自載具1910b廣播的載具資訊來偵測載具1910b，且藉由使用接收到的載具資訊來存取載具1910b。The wearable device 100c sets communication with the carrier 1910b by using the vehicle information of the carrier 1910b. For example, in order to set Bluetooth® communication with the carrier 1910b, the wearable device 100c detects the carrier 1910b by receiving the vehicle information broadcast from the carrier 1910b, and stores the information by using the received vehicle information. Take the carrier 1910b.

圖40說明根據本發明的實施例的控制可穿戴裝置100a的方法。FIG. 40 illustrates a method of controlling the wearable device 100a in accordance with an embodiment of the present invention.

在圖40中，為了判定使用者是否正在駕駛，可穿戴裝置100a判定使用者是否在載具中，且若可穿戴裝置100a判定使用者在載具中，則可穿戴裝置100a判定使用者是否正在駕駛。In FIG. 40, in order to determine whether the user is driving, the wearable device 100a determines whether the user is in the vehicle, and if the wearable device 100a determines that the user is in the vehicle, the wearable device 100a determines whether the user is drive.

在步驟S4002中，可穿戴裝置100a獲得可穿戴裝置100a的狀態資訊，諸如，藉由使用在可穿戴裝置100a中形成的各種感測器（如先前所論述）。In step S4002, the wearable device 100a obtains status information of the wearable device 100a, such as by using various sensors formed in the wearable device 100a (as previously discussed).

在步驟S4004中，可穿戴裝置100a藉由使用狀態資訊判定可穿戴裝置100a的使用者是否在載具中。舉例而言，當偵測到具有預儲存的圖案的振動時，或當設定與載具的通信時，可穿戴裝置100a判定使用者在載具中。In step S4004, the wearable device 100a determines whether the user of the wearable device 100a is in the vehicle by using the status information. For example, when a vibration having a pre-stored pattern is detected, or when communication with the carrier is set, the wearable device 100a determines that the user is in the carrier.

當可穿戴裝置100a判定使用者在載具中時，在步驟S4006中，可穿戴裝置100a判定使用者是否正在駕駛。舉例而言，當可穿戴裝置100a偵測到方向盤轉動運動、在載具踏板上步進或按壓載具踏板的旋轉移動或向可穿戴裝置100a註冊的載具時，可穿戴裝置100a判定使用者正在駕駛。When the wearable device 100a determines that the user is in the vehicle, the wearable device 100a determines whether the user is driving in step S4006. For example, when the wearable device 100a detects the steering wheel rotational motion, steps or presses the rotational movement of the carrier pedal or the carrier registered with the wearable device 100a on the carrier pedal, the wearable device 100a determines the user. Driving.

當可穿戴裝置100a判定使用者正在駕駛時，在步驟S4008中，可穿戴裝置100a改變可穿戴裝置100a的功能的設定或執行預設定功能。When the wearable device 100a determines that the user is driving, the wearable device 100a changes the setting of the function of the wearable device 100a or performs the preset function in step S4008.

當在步驟S4004中可穿戴裝置100a判定使用者不在載具中時，在步驟S4010中，可穿戴裝置100a改變功能的設定或執行功能。舉例而言，當可穿戴裝置100a判定使用者不在載具中時，舉例而言，可穿戴裝置100a執行用於控制載具的收音機或光學光碟播放器的聲音輸出功能的使用者介面或用於控制導航的使用者介面。當可穿戴裝置100a判定使用者不在載具中時，可穿戴裝置100a（例如）藉由去啟動Wi-Fi且啟動Bluetooth®來改變通信設定。When the wearable device 100a determines in step S4004 that the user is not in the vehicle, the wearable device 100a changes the setting or execution function of the function in step S4010. For example, when the wearable device 100a determines that the user is not in the vehicle, for example, the wearable device 100a performs a user interface for controlling the sound output function of the radio or optical disc player of the vehicle or for The user interface that controls navigation. When the wearable device 100a determines that the user is not in the vehicle, the wearable device 100a changes the communication settings, for example, by starting Wi-Fi and starting Bluetooth®.

圖41說明根據本發明的實施例的判定使用者是否在載具中的方法，所述方法由可穿戴裝置100a執行。Figure 41 illustrates a method of determining whether a user is in a vehicle, the method being performed by the wearable device 100a, in accordance with an embodiment of the present invention.

在圖41中，可穿戴裝置100a基於載具的速度判定使用者是否在載具中。可穿戴裝置100a在步驟S4102中基於由裝設在可穿戴裝置100a中的全球定位系統（GPS）模組偵測的位置藉由計算每單位時間的行進距離來量測載具的速度。作為另一實例，可基於由加速度感測器偵測到的加速度來計算可穿戴裝置100a的速度。In FIG. 41, the wearable device 100a determines whether the user is in the vehicle based on the speed of the vehicle. The wearable device 100a measures the speed of the vehicle by calculating the travel distance per unit time based on the position detected by the Global Positioning System (GPS) module installed in the wearable device 100a in step S4102. As another example, the speed of the wearable device 100a can be calculated based on the acceleration detected by the acceleration sensor.

當在步驟S4104中判定量測的速度等於或大於參考速度時，在步驟S4106中，可穿戴裝置100a判定使用者在載具中。舉例而言，當由可穿戴裝置100a量測的速度等於或大於20哩/小時時，可穿戴裝置100a判定使用者在載具中。When it is determined in step S4104 that the measured speed is equal to or greater than the reference speed, in step S4106, the wearable device 100a determines that the user is in the vehicle. For example, when the speed measured by the wearable device 100a is equal to or greater than 20 哩/hour, the wearable device 100a determines that the user is in the vehicle.

圖42說明根據本發明的另一實施例的判定使用者是否在載具中的方法，所述方法由可穿戴裝置100a執行。Figure 42 illustrates a method of determining whether a user is in a vehicle, the method being performed by the wearable device 100a, in accordance with another embodiment of the present invention.

在圖42中，可穿戴裝置100a基於載具的加速度判定使用者是否在載具中。在步驟S4202中，可穿戴裝置100a基於由在可穿戴裝置100a中形成的加速度感測器偵測到的加速度來量測加速度。In FIG. 42, the wearable device 100a determines whether the user is in the vehicle based on the acceleration of the vehicle. In step S4202, the wearable device 100a measures the acceleration based on the acceleration detected by the acceleration sensor formed in the wearable device 100a.

當在步驟S4204中量測的加速度的圖案對應於預儲存的加速度圖案時，在步驟S4206中，可穿戴裝置100a判定使用者在載具中。預儲存的加速度圖案包含對應於載具的速度的增大或減小、車道改變、載具的左轉彎、右轉彎以及U形轉彎或其組合中的至少一者的加速度改變圖案。當重複偵測預儲存的加速度圖案時（諸如，大於在參考時間週期內的參考次數），可穿戴裝置100a判定使用者在載具中。When the pattern of the acceleration measured in step S4204 corresponds to the pre-stored acceleration pattern, the wearable device 100a determines that the user is in the vehicle in step S4206. The pre-stored acceleration pattern includes an acceleration change pattern corresponding to at least one of an increase or decrease in speed of the vehicle, a lane change, a left turn of the vehicle, a right turn, and a U-turn, or a combination thereof. When the pre-stored acceleration pattern is repeatedly detected (such as greater than the reference number in the reference time period), the wearable device 100a determines that the user is in the vehicle.

圖43說明根據本發明的另一實施例的判定可穿戴裝置100a的使用者是否在載具中的方法。Figure 43 illustrates a method of determining whether a user of wearable device 100a is in a vehicle, in accordance with another embodiment of the present invention.

在圖43中，可穿戴裝置100a基於偵測到的聲音判定使用者是否在載具中。在步驟S4302中，可穿戴裝置100a偵測聲音，諸如，藉由使用在可穿戴裝置100a處形成的麥克風。In FIG. 43, the wearable device 100a determines whether the user is in the vehicle based on the detected sound. In step S4302, the wearable device 100a detects sound, such as by using a microphone formed at the wearable device 100a.

在步驟S4304中，可穿戴裝置100a判定偵測到的聲音是否類似於預儲存的聲音圖案。預儲存的聲音圖案包含（例如）載具引擎、機車引擎、公車引擎、地下道車以及飛機的聲音。偵測到的聲音與預儲存的聲音圖案之間的比較可藉由使用相關性技術來執行。In step S4304, the wearable device 100a determines whether the detected sound is similar to the pre-stored sound pattern. The pre-stored sound patterns include, for example, the sound of the vehicle engine, the locomotive engine, the bus engine, the underpass, and the aircraft. The comparison between the detected sound and the pre-stored sound pattern can be performed by using correlation techniques.

當偵測到的聲音類似於預儲存的聲音圖案時，在步驟S4306中，可穿戴裝置100a判定使用者在載具中。When the detected sound is similar to the pre-stored sound pattern, the wearable device 100a determines that the user is in the vehicle in step S4306.

圖44說明根據本發明的另一實施例的控制可穿戴裝置100a的方法。Figure 44 illustrates a method of controlling a wearable device 100a in accordance with another embodiment of the present invention.

在圖44中，可穿戴裝置100a判定使用者是否在公共運輸上。In Fig. 44, the wearable device 100a determines whether the user is on public transportation.

在步驟S4402中，可穿戴裝置100a獲得可穿戴裝置100a的狀態資訊。In step S4402, the wearable device 100a obtains status information of the wearable device 100a.

在步驟S4404中，可穿戴裝置100a（例如）藉由設定與載具的通信或藉由偵測速度或加速度、聲音，基於狀態資訊判定使用者是否在載具中。In step S4404, the wearable device 100a determines whether the user is in the vehicle based on the status information, for example, by setting communication with the vehicle or by detecting speed or acceleration, sound.

若使用者在載具中，則在步驟S4406中，可穿戴裝置100a藉由使用（例如）磁場、聲音或振動值來判定使用者是否在公共運輸上。If the user is in the vehicle, then in step S4406, the wearable device 100a determines whether the user is on public transportation by using, for example, a magnetic field, sound, or vibration value.

當使用者不在公共運輸上時，在步驟S4408中，可穿戴裝置100a判定使用者是否正在駕駛，諸如，藉由使用（例如）振動、運動或所捕獲影像。當使用者在公共運輸上時，可穿戴裝置100a判定使用者未在駕駛。根據本實施例，當使用者在公共運輸上時可穿戴裝置100a可不正確地判定使用者正在駕駛的可能性減小了。When the user is not on public transportation, in step S4408, the wearable device 100a determines whether the user is driving, such as by using, for example, vibration, motion, or captured images. When the user is on public transportation, the wearable device 100a determines that the user is not driving. According to the present embodiment, the wearable device 100a can incorrectly determine that the possibility that the user is driving is reduced when the user is in public transportation.

若使用者正在駕駛，則在步驟S4410中，可穿戴裝置100a改變可穿戴裝置100a的功能的設定或執行預設定功能。If the user is driving, the wearable device 100a changes the setting of the function of the wearable device 100a or performs the preset function in step S4410.

根據本實施例，當在步驟S4406中可穿戴裝置100a判定使用者在公共運輸上時，在步驟S4412中，可穿戴裝置100a改變功能的設定或執行針對當使用者在公共運輸上時預設定的功能。舉例而言，當使用者在公共運輸上時，可穿戴裝置100a將通知模式置於振動，或執行地下道路線導引應用程式或公車路線導引應用程式。According to the present embodiment, when the wearable device 100a determines in step S4406 that the user is on public transportation, in step S4412, the wearable device 100a changes the setting or execution of the function for the user to pre-set on the public transportation. Features. For example, when the user is on public transportation, the wearable device 100a places the notification mode in vibration, or executes an underground road guidance application or a bus route guidance application.

根據另一實施例，可穿戴裝置100a基於可穿戴裝置100a的狀態資訊判定公共運輸的類型，且根據公共運輸的類型改變功能的設定或執行功能。舉例而言，可穿戴裝置100a基於振動圖案自地下道車、公車、火車以及飛機判定使用者所在的公共運輸的類型，且根據公共運輸的類型改變功能的設定或執行功能。舉例而言，若可穿戴裝置100a判定使用者在地下道車上，則可穿戴裝置100a執行地下道路線導引應用程式，且若可穿戴裝置100a判定使用者在公車上，則可穿戴裝置100a執行公車路線導引應用程式。若可穿戴裝置100a判定使用者在飛機上，則可穿戴裝置100a將可穿戴裝置100a的模式改變至飛航模式，或去啟動通信模組。According to another embodiment, the wearable device 100a determines the type of public transportation based on the status information of the wearable device 100a, and changes the setting or execution function of the function according to the type of the public transportation. For example, the wearable device 100a determines the type of public transportation in which the user is located from the underpass, the bus, the train, and the airplane based on the vibration pattern, and changes the setting or execution function of the function according to the type of the public transportation. For example, if the wearable device 100a determines that the user is on the underpass, the wearable device 100a executes the underground road guidance application, and if the wearable device 100a determines that the user is on the bus, the wearable device 100a executes the bus. Route guidance app. If the wearable device 100a determines that the user is on the aircraft, the wearable device 100a changes the mode of the wearable device 100a to the flight mode or activates the communication module.

圖45說明根據本發明的實施例的判定使用者是否在公共運輸上的方法。Figure 45 illustrates a method of determining whether a user is on public transportation, in accordance with an embodiment of the present invention.

在圖45中，可穿戴裝置100a藉由量測磁場來判定使用者是否在公共運輸上。可穿戴裝置100a包含磁場感測器，且在步驟S4502中，藉由使用磁場感測器來量測磁場。In Fig. 45, the wearable device 100a determines whether the user is on public transportation by measuring the magnetic field. The wearable device 100a includes a magnetic field sensor, and in step S4502, the magnetic field is measured by using a magnetic field sensor.

在步驟S4504中，可穿戴裝置100a比較量測的磁場與預儲存的磁場圖案，且若偵測到預儲存的磁場圖案，則在步驟S4506中，可穿戴裝置100a判定使用者在公共運輸上。舉例而言，可穿戴裝置100a預儲存地下道車或電子鐵路車的磁場圖案，且若偵測到地下道車或電子鐵路車的預儲存的磁場圖案，則可穿戴裝置100a判定使用者在地下道車或電子鐵路車上。In step S4504, the wearable device 100a compares the measured magnetic field with the pre-stored magnetic field pattern, and if a pre-stored magnetic field pattern is detected, the wearable device 100a determines that the user is on public transportation in step S4506. For example, the wearable device 100a pre-stores the magnetic field pattern of the underground car or the electronic railway car, and if the pre-stored magnetic field pattern of the underground car or the electronic railway car is detected, the wearable device 100a determines that the user is in the underground car or On the electronic railway car.

圖46說明根據本發明的另一實施例的判定使用者是否在公共運輸上的方法。Figure 46 illustrates a method of determining whether a user is on public transportation, in accordance with another embodiment of the present invention.

在圖46中，可穿戴裝置100a藉由在步驟S4602中量測聲音（藉由使用可穿戴裝置100a中包含的麥克風）來判定使用者是否在公共運輸上。In FIG. 46, the wearable device 100a determines whether the user is on public transportation by measuring the sound in step S4602 (by using the microphone included in the wearable device 100a).

在步驟S4604中，可穿戴裝置100a比較量測的聲音與預儲存的聲音圖案，且若偵測到預儲存的聲音圖案，則在步驟S4606中，可穿戴裝置100a判定使用者在公共運輸上。舉例而言，可穿戴裝置100a預儲存地下道車、電子鐵路車、公車、火車、飛機以及船中的每一者的聲音圖案，且若偵測到預儲存的聲音圖案，則判定使用者在公共運輸上。舉例而言，預儲存的聲音圖案包含引擎的振動聲音以及公共運輸通告。可穿戴裝置100a根據偵測到的聲音圖案判定公共運輸的類型。In step S4604, the wearable device 100a compares the measured sound with the pre-stored sound pattern, and if a pre-stored sound pattern is detected, the wearable device 100a determines that the user is on public transportation in step S4606. For example, the wearable device 100a pre-stores the sound pattern of each of the underground car, the electronic railway car, the bus, the train, the airplane, and the ship, and if the pre-stored sound pattern is detected, the user is determined to be in the public Transportation. For example, the pre-stored sound pattern contains the vibration sound of the engine as well as public transport announcements. The wearable device 100a determines the type of public transportation based on the detected sound pattern.

圖47說明根據本發明的另一實施例的判定使用者是否在公共運輸上的方法。Figure 47 illustrates a method of determining whether a user is on public transportation, in accordance with another embodiment of the present invention.

在圖47中，可穿戴裝置100a藉由在步驟S4702中量測可穿戴裝置100a中包含加速度感測器的振動來判定使用者是否在公共運輸上。In FIG. 47, the wearable device 100a determines whether the user is on public transportation by measuring the vibration of the acceleration sensor included in the wearable device 100a in step S4702.

在步驟S4704中，可穿戴裝置100a比較量測的振動與預儲存的振動圖案，且若偵測到預儲存的振動圖案，則在步驟S4706中，可穿戴裝置100a判定使用者在公共運輸上。舉例而言，可穿戴裝置100a預儲存地下道車、電子鐵路車、公車、火車、飛機以及船中的每一者的振動圖案，且若偵測到預儲存的振動圖案，則判定使用者在公共運輸上。可穿戴裝置100a根據偵測到的振動圖案判定公共運輸的類型。In step S4704, the wearable device 100a compares the measured vibration with the pre-stored vibration pattern, and if a pre-stored vibration pattern is detected, the wearable device 100a determines that the user is on public transportation in step S4706. For example, the wearable device 100a pre-stores the vibration pattern of each of the underground car, the electronic railway car, the bus, the train, the airplane, and the ship, and if the pre-stored vibration pattern is detected, it is determined that the user is in the public Transportation. The wearable device 100a determines the type of public transportation based on the detected vibration pattern.

圖48為說明根據本發明的實施例的可穿戴裝置100d的組態的方塊圖。FIG. 48 is a block diagram illustrating a configuration of a wearable device 100d according to an embodiment of the present invention.

如圖48中所說明，可穿戴裝置100d的組態可應用於各種類型的裝置，包含（例如）行動電話、平板PC、個人數位助理（personal digital assistant；PDA）、MP3播放器、查詢一體機、電子相片框、導航裝置、數位電視（digital television；TV）或包含腕錶以及頭戴式顯示器（head-mounted display；HMD）的可穿戴裝置。As illustrated in FIG. 48, the configuration of the wearable device 100d can be applied to various types of devices including, for example, a mobile phone, a tablet PC, a personal digital assistant (PDA), an MP3 player, an inquiry machine. , an electronic photo frame, a navigation device, a digital television (TV) or a wearable device including a wristwatch and a head-mounted display (HMD).

參考圖48，可穿戴裝置100d包含顯示單元4810、控制單元4870、記憶體4820、GPS晶片4825、通信單元4830、視訊處理器4835、音訊處理器4840、使用者輸入單元4845、麥克風單元4850、影像捕獲單元4855、揚聲器單元4860以及運動偵測單元4865。Referring to FIG. 48, the wearable device 100d includes a display unit 4810, a control unit 4870, a memory 4820, a GPS chip 4825, a communication unit 4830, a video processor 4835, an audio processor 4840, a user input unit 4845, a microphone unit 4850, and an image. A capture unit 4855, a speaker unit 4860, and a motion detection unit 4865.

顯示單元4810包含顯示面板4811以及控制顯示面板4811的控制器。顯示面板4811可實施為各種顯示器，包含（例如）液晶顯示器（LCD）、有機發光二極體（organic light-emitting diode；OLED）顯示器、主動矩陣OLED（active matrix OLED；AMOLED）顯示器以及電漿顯示面板（plasma display panel；PDP）。顯示面板4811可經形成為可撓性的、透明的及/或可穿戴的，且可與使用者輸入單元4845的觸控面板4847組合，藉此提供為觸控式螢幕。舉例而言，觸控式螢幕包含具有含有顯示面板4811以及觸控面板4847的堆疊結構的整合式模組。The display unit 4810 includes a display panel 4811 and a controller that controls the display panel 4811. The display panel 4811 can be implemented as various displays including, for example, a liquid crystal display (LCD), an organic light-emitting diode (OLED) display, an active matrix OLED (AMOLED) display, and a plasma display. Plasma display panel (PDP). The display panel 4811 can be formed to be flexible, transparent, and/or wearable, and can be combined with the touch panel 4847 of the user input unit 4845, thereby providing a touch screen. For example, the touch screen includes an integrated module having a stack structure including a display panel 4811 and a touch panel 4847.

記憶體4820包括內部記憶體以及外部記憶體中的至少一者。The memory 4820 includes at least one of an internal memory and an external memory.

內部記憶體包含以下各者中的至少一者：揮發性記憶體（諸如，動態隨機存取記憶體（dynamic random-access memory；DRAM）、靜態RAM（static RAM；SRAM）或同步動態RAM（synchronous dynamic RAM；SDRAM））、非揮發性記憶體（諸如，一次性可程式化唯讀記憶體（one-time programmable read-only memory；OTPROM）、可程式化ROM（programmable ROM；PROM）、可抹除且可程式化ROM（erasable and programmable ROM；EPROM）、電可抹除且可程式化ROM（electrically erasable and programmable ROM；EEPROM）、罩幕式ROM以及快閃ROM）、硬碟機（hard disk drive；HDD）以及固態磁碟機（solid-state drive；SSD）。根據本實施例，控制單元4870將自非揮發性記憶體以及另一元件中的至少一者接收的命令或資料裝載至揮發性記憶體，且處理命令或資料。控制單元4870在非揮發性記憶體中儲存自另一元件接收或由另一元件產生的資料。The internal memory includes at least one of: a volatile memory (such as a dynamic random-access memory (DRAM), a static RAM (SRAM), or a synchronous dynamic RAM (synchronous). Dynamic RAM; SDRAM)), non-volatile memory (such as one-time programmable read-only memory (OTPROM), programmable ROM (PROM), erasable In addition to programmable ROM (erasable and programmable ROM; EPROM), electrically erasable and programmable ROM (EEPROM), mask ROM and flash ROM, hard disk (hard disk) Drive; HDD) and solid-state drive (SSD). In accordance with the present embodiment, control unit 4870 loads commands or materials received from at least one of the non-volatile memory and another component into volatile memory and processes the commands or materials. Control unit 4870 stores material received from or generated by another component in non-volatile memory.

外部記憶體包含以下各者中的至少一者：緊密快閃（compact flash；CF）記憶體、安全數位（secure digital；SD）記憶體、微安全數位（micro secure digital；micro-SD）記憶體、微型安全數位（mini secure digital；mini-SD）記憶體、極速數位（extreme digital；xD）記憶體以及記憶棒。The external memory includes at least one of: compact flash (CF) memory, secure digital (SD) memory, and micro secure digital (micro-SD) memory. , mini secure digital (mini-SD) memory, extreme digital (xD) memory and memory stick.

記憶體4820儲存在可穿戴裝置100d中使用的各種程式以及資料。舉例而言，記憶體4820可暫時或半永久地儲存待顯示於鎖定螢幕上的內容的一部分。The memory 4820 stores various programs and materials used in the wearable device 100d. For example, memory 4820 can temporarily or semi-permanently store a portion of the content to be displayed on the lock screen.

控制單元4870控制顯示單元4810顯示儲存在記憶體4820中的內容的部分。替代地，當在顯示單元4810的區域中執行使用者的示意動作時，控制單元4870執行對應於使用者的示意動作的控制操作。The control unit 4870 controls the display unit 4810 to display a portion of the content stored in the memory 4820. Alternatively, when the gesture of the user is performed in the area of the display unit 4810, the control unit 4870 performs a control operation corresponding to the gesture of the user.

控制單元4870包含RAM 4871、ROM 4872、中央處理單元（central processing unit；CPU）4873、圖形處理器單元（graphics processor unit；GPU）4874以及將RAM 4871、ROM 4872、CPU 4873與GPU 4874相互連接的總線4875。The control unit 4870 includes a RAM 4871, a ROM 4872, a central processing unit (CPU) 4873, a graphics processor unit (GPU) 4874, and interconnects the RAM 4871, the ROM 4872, the CPU 4873, and the GPU 4874. Bus 4875.

CPU 4873存取記憶體4820，且藉由使用儲存在記憶體4820中的OS來執行啟動操作。CPU 4873藉由使用儲存在記憶體4820中的各種程式、內容以及資料段來執行各種操作。The CPU 4873 accesses the memory 4820 and performs a booting operation by using an OS stored in the memory 4820. The CPU 4873 performs various operations by using various programs, contents, and data segments stored in the memory 4820.

ROM 4872儲存針對啟動系統而設定的命令。舉例而言，當將接通命令輸入至可穿戴裝置100d且將電力供應至可穿戴裝置100d時，CPU 4873根據儲存在ROM 4872中的命令將儲存在記憶體4820中的OS複製至RAM 4871，執行OS，且因此啟動系統。當完成啟動操作時，4873將儲存在記憶體4820中的各種程式複製至RAM 4871，且藉由執行複製至RAM 4871的程式來執行各種操作。當可穿戴裝置100d經啟動時，GPU 4874在顯示單元4810的區域中顯示使用者介面螢幕。更詳細地，GPU 4874產生顯示包含各種對象（諸如，內容、圖示以及選單）的電子文件的螢幕。GPU 4874計算待根據使用者介面螢幕的佈局顯示的對象的座標值，且計算對象的形狀、大小或色彩的屬性值。接著，GPU 4874基於所計算的屬性值而產生具有包含對象的各種佈局的使用者介面螢幕。由GPU 4874產生的使用者介面螢幕可提供至顯示單元4810，且因此可顯示於顯示單元4810的區域中。The ROM 4872 stores commands set for starting the system. For example, when an on command is input to the wearable device 100d and power is supplied to the wearable device 100d, the CPU 4873 copies the OS stored in the memory 4820 to the RAM 4871 according to the command stored in the ROM 4872, Execute the OS and thus start the system. When the startup operation is completed, the 4873 copies the various programs stored in the memory 4820 to the RAM 4871, and performs various operations by executing the program copied to the RAM 4871. When the wearable device 100d is activated, the GPU 4874 displays a user interface screen in the area of the display unit 4810. In more detail, GPU 4874 produces a screen that displays electronic files containing various objects such as content, icons, and menus. The GPU 4874 calculates a coordinate value of an object to be displayed according to the layout of the user interface screen, and calculates an attribute value of the shape, size, or color of the object. Next, GPU 4874 generates a user interface screen with various layouts containing objects based on the calculated attribute values. A user interface screen generated by GPU 4874 can be provided to display unit 4810 and thus can be displayed in the area of display unit 4810.

GPS晶片4825自GPS衛星接收GPS信號，且計算可穿戴裝置100d的當前位置。在使用導航程式或需要使用者的當前位置的情況下，控制單元4870藉由使用GPS晶片4825來計算使用者的位置。The GPS wafer 4825 receives GPS signals from GPS satellites and calculates the current location of the wearable device 100d. In the case where the navigation program is used or the current location of the user is required, the control unit 4870 calculates the position of the user by using the GPS wafer 4825.

通信單元4830根據各種類型的通信方法執行與各種外部裝置的通信。通信單元4830包含選自Wi-Fi晶片4831、Bluetooth®晶片4832、無線通信晶片4833以及NFC晶片4834的至少一者。控制單元4870藉由使用通信單元4830來執行與各種外部裝置的通信。The communication unit 4830 performs communication with various external devices in accordance with various types of communication methods. The communication unit 4830 includes at least one selected from the group consisting of a Wi-Fi chip 4831, a Bluetooth® chip 4832, a wireless communication chip 4833, and an NFC wafer 4834. The control unit 4870 performs communication with various external devices by using the communication unit 4830.

Wi-Fi晶片4831及Bluetooth®晶片4832分別藉由使用WiFi以及Bluetooth®來執行通信。若使用Wi-Fi晶片4831或Bluetooth®晶片4832，則WiFi晶片4831或Bluetooth®晶片4832首先傳輸以及接收各種類型的連接資訊（包含例如服務集識別（service set identification；SSID）或會期密鑰），藉由使用連接資訊來建立用於通信的連接，且接著可傳輸以及接收各種類型的資訊。無線通信晶片4833根據諸如電機電子工程師學會（Institute of Electrical and Electronics Engineers；IEEE）、群蜂(ZigBee)、第三代（3rd generation；3G）、第三代合作夥伴計劃（3rd Generation Partnership Project；3GPP）以及長期演進（Long Term Evolution；LTE）的各種通信標準執行通信。NFC晶片4834藉由使用來自各種射頻識別（radio frequency-identification；RF-ID）頻帶（諸如，135 kHz、13.56 MHz、433 MHz、860～960 MHz以及2.45 GHz）當中的13.56 MHz頻帶使用NFC操作。The Wi-Fi chip 4831 and the Bluetooth® chip 4832 perform communication by using WiFi and Bluetooth®, respectively. If a Wi-Fi chip 4831 or a Bluetooth® chip 4832 is used, the WiFi chip 4831 or the Bluetooth® chip 4832 first transmits and receives various types of connection information (including, for example, a service set identification (SSID) or a session key). By using connection information to establish a connection for communication, and then various types of information can be transmitted and received. The wireless communication chip 4833 is based on, for example, the Institute of Electrical and Electronics Engineers (IEEE), the ZigBee, the 3rd generation (3G), and the 3rd Generation Partnership Project (3GPP). ) and various communication standards of Long Term Evolution (LTE) perform communication. NFC wafer 4834 operates using NFC by using the 13.56 MHz band from among various radio frequency-identification (RF-ID) frequency bands, such as 135 kHz, 13.56 MHz, 433 MHz, 860-960 MHz, and 2.45 GHz.

視訊處理器4835處理包含於藉由使用通信單元4830接收的內容中的視訊資料，或處理包含於儲存於記憶體4820中的內容中的視訊資料。視訊處理器4835對視訊資料執行各種影像處理，諸如，解碼、按比例調整、雜訊濾波、訊框率轉換以及解析度轉換。The video processor 4835 processes the video material contained in the content received by using the communication unit 4830, or processes the video material contained in the content stored in the memory 4820. The video processor 4835 performs various image processing on the video material, such as decoding, scaling, noise filtering, frame rate conversion, and resolution conversion.

音訊處理器4840處理包含於藉由使用通信單元4830接收的內容中的音訊資料，或處理包含於儲存於記憶體4820中的內容中的音訊資料。音訊處理器4840可對音訊資料執行各種處理，諸如，解碼、放大以及雜訊濾波。The audio processor 4840 processes the audio material contained in the content received by using the communication unit 4830, or processes the audio material contained in the content stored in the memory 4820. The audio processor 4840 can perform various processing on the audio material, such as decoding, amplification, and noise filtering.

當執行用於多媒體內容的再現程式時，控制單元4870藉由驅動視訊處理器4835以及音訊處理器4840來再現多媒體內容。揚聲器單元4860輸出在音訊處理器4840中產生的音訊資料。When the reproduction program for the multimedia content is executed, the control unit 4870 reproduces the multimedia content by driving the video processor 4835 and the audio processor 4840. The speaker unit 4860 outputs the audio material generated in the audio processor 4840.

使用者輸入單元4845自使用者接收各種指令的輸入，且包含選自鍵4846、觸控面板4847以及筆辨識面板4848中的至少一者。The user input unit 4845 receives input of various commands from the user and includes at least one selected from the group consisting of a button 4846, a touch panel 4847, and a pen recognition panel 4484.

鍵4846可屬於可形成於可穿戴裝置100d的主體的外表面的前部分、側部分或後部分中的諸如機械按鈕或輪的各種類型。The key 4846 may belong to various types such as mechanical buttons or wheels that may be formed in the front portion, the side portion, or the rear portion of the outer surface of the body of the wearable device 100d.

觸控面板4847感測由使用者進行的觸摸輸入，且輸出對應於藉由所感測的觸摸輸入而產生的信號的觸碰事件的值。當觸控面板4847與顯示面板4811組合且因此形成為觸控式螢幕時，觸控式螢幕可藉由使用各種類型的觸控感測器而組態為電容性觸控式螢幕、電阻性觸控式螢幕或壓電觸控式螢幕。電容性觸控式螢幕藉由感測當使用者的身體部位觸摸電容性觸控式螢幕的表面（其塗佈有介電材料）時產生的少量電來計算觸碰座標。電阻性觸控式螢幕包含兩個內嵌的電極板，且藉由感測當使用者觸碰電阻性觸控式螢幕時發生的電流的流動（其使經觸碰點的上部板與下部板相互接觸）來計算觸碰座標。發生在觸控式螢幕上的觸碰事件主要地由人的手指產生，且亦可由由能夠改變電容的傳導性材料形成的物件產生。The touch panel 4847 senses a touch input by a user and outputs a value of a touch event corresponding to a signal generated by the sensed touch input. When the touch panel 4847 is combined with the display panel 4811 and thus formed as a touch screen, the touch screen can be configured as a capacitive touch screen, resistive touch by using various types of touch sensors. Control screen or piezoelectric touch screen. The capacitive touch screen calculates the touch coordinates by sensing a small amount of electricity generated when the user's body part touches the surface of the capacitive touch screen, which is coated with a dielectric material. The resistive touch screen includes two embedded electrode plates, and senses the flow of current generated when the user touches the resistive touch screen (the upper and lower plates of the touched point are touched) Contact each other) to calculate the touch coordinates. The touch event that occurs on the touch screen is primarily generated by a person's finger and can also be generated by an object formed of a conductive material capable of changing the capacitance.

筆辨識面板4848感測諸如觸控筆或數位板筆的觸控筆的接近性輸入或觸摸式輸入（其由使用者執行），且輸出感測的筆接近性事件或感測的筆觸碰事件。筆辨識面板4848可為電磁共振（electromagnetic resonance；EMR）型筆辨識面板，且根據當觸控筆接觸或觸碰觸控式螢幕時發生的電磁場的強度的改變來感測觸摸式輸入或接近性輸入。更詳細地，筆辨識面板4848包含具有柵格結構的電磁感應線圈感測器，以及依序地將具有預定頻率的交流（alternating current；AC）信號提供至電磁感應線圈感測器的每一迴圈線圈的電子信號處理器。The pen recognition panel 4848 senses a proximity input or touch input (such as performed by a user) of a stylus such as a stylus or a tablet pen, and outputs a sensed pen proximity event or a sensed pen touch event. . The pen recognition panel 4848 can be an electromagnetic resonance (EMR) type pen recognition panel, and senses touch input or proximity according to a change in the intensity of an electromagnetic field that occurs when the stylus contacts or touches the touch screen. Input. In more detail, the pen recognition panel 4848 includes an electromagnetic induction coil sensor having a grid structure, and sequentially supplies an alternating current (AC) signal having a predetermined frequency to each of the electromagnetic induction coil sensors. An electronic signal processor for the coil.

當具有內部諧振電路的筆定位於筆辨識面板4848的迴圈線圈附近時，自迴圈線圈傳輸的磁場基於相互靜電感應在筆中的諧振電路中產生電流。歸因於電流，自形成筆中的諧振電路的線圈產生感應場。筆辨識面板4848自能夠接收信號的迴圈線圈偵測感應場，且因此感測筆的觸摸式輸入或接近性輸入。筆辨識面板4848可經配置以佔據在顯示面板4811下方的預設定區，諸如，藉由具有能夠覆蓋顯示面板4811的顯示區域的大小。When a pen having an internal resonant circuit is positioned near the loop coil of the pen recognition panel 4848, the magnetic field transmitted from the loop coil generates a current in the resonant circuit in the pen based on mutual electrostatic induction. Due to the current, an induced field is generated from the coil of the resonant circuit forming the pen. The pen recognition panel 4848 detects the inductive field from the loop coil that is capable of receiving the signal, and thus senses the touch input or proximity input of the pen. The pen recognition panel 4848 can be configured to occupy a pre-set area below the display panel 4811, such as by having a size that can cover the display area of the display panel 4811.

麥克風單元4850接收使用者的語音或另一聲音的輸入，且將使用者的語音或其他聲音轉換至音訊資料。控制單元4870在與呼叫有關的操作中使用使用者的語音（其是經由麥克風單元4850輸入），或將使用者的語音轉換至其儲存在記憶體4820中的音訊資料。The microphone unit 4850 receives an input of a user's voice or another sound, and converts the user's voice or other sound to the audio material. The control unit 4870 uses the user's voice (which is input via the microphone unit 4850) in the call-related operation, or converts the user's voice to the audio material stored in the memory 4820.

影像捕獲單元4855根據由使用者進行控制捕獲靜態影像或動畫。影像捕獲單元4855可在數目上為多個，且包含（例如）前置相機以及後置相機。The image capture unit 4855 captures still images or animations according to control by the user. The image capture unit 4855 can be multiple in number and includes, for example, a front camera and a rear camera.

若影像捕獲單元4855以及麥克風單元4850經形成，則控制單元4870可根據經由麥克風單元4850輸入的使用者的語音或由影像捕獲單元4855辨識的使用者的運動來執行控制操作。舉例而言，可穿戴裝置100d在運動控制模式或語音控制模式中操作。若可穿戴裝置100d在運動控制模式中操作，則控制單元4870啟動影像捕獲單元4855且捕獲使用者的影像，追蹤使用者的運動的改變，且執行對應於其的控制操作。若可穿戴裝置100d在語音控制模式（意即，語音辨識模式）中操作，則控制單元4870分析經由麥克風單元4850輸入的使用者的語音，且根據分析的使用者的語音執行控制操作。If the image capturing unit 4855 and the microphone unit 4850 are formed, the control unit 4870 can perform a control operation according to the user's voice input via the microphone unit 4850 or the motion of the user recognized by the image capturing unit 4855. For example, the wearable device 100d operates in a motion control mode or a voice control mode. If the wearable device 100d is operating in the motion control mode, the control unit 4870 activates the image capturing unit 4855 and captures the image of the user, tracks the change in the motion of the user, and performs a control operation corresponding thereto. If the wearable device 100d operates in the voice control mode (ie, the voice recognition mode), the control unit 4870 analyzes the voice of the user input via the microphone unit 4850, and performs a control operation according to the analyzed voice of the user.

運動偵測單元4865偵測在各種方向上旋轉或傾斜的可穿戴裝置100d的主體的移動。運動偵測單元4865藉由使用磁性感測器、陀螺儀感測器或加速度感測器中的至少一者來偵測諸如旋轉方向、旋轉角以及傾斜角的移動特性。The motion detecting unit 4865 detects the movement of the body of the wearable device 100d that is rotated or tilted in various directions. The motion detecting unit 4865 detects motion characteristics such as a rotational direction, a rotational angle, and a tilt angle by using at least one of a magnetic sensor, a gyro sensor, or an acceleration sensor.

舉例而言，圖48的實施例可更包含用於連接可穿戴裝置100d與USB連接器的通用串列匯流排（universal serial bus；USB）埠、各種外部輸入埠（包含頭戴式耳機、滑鼠以及用於與各種外部終端機的連接的區域網路（local area network；LAN））、用於接收以及處理數位多媒體廣播（digital multimedia broadcasting；DMB）信號的DMB晶片以及各種感測器。For example, the embodiment of FIG. 48 may further include a universal serial bus (USB) for connecting the wearable device 100d and the USB connector, various external input ports (including headphones, sliding). A mouse and a local area network (LAN) for connection to various external terminals, a DMB chip for receiving and processing digital multimedia broadcasting (DMB) signals, and various sensors.

可穿戴裝置100d中的元件的名稱可變化。根據本實施例的可穿戴裝置100d包含前述元件中的至少一者，或可藉由比前述元件多或少的元件來實施。The names of the components in the wearable device 100d may vary. The wearable device 100d according to the present embodiment includes at least one of the aforementioned elements, or may be implemented by more or less elements than the aforementioned elements.

圖48的觸控面板4847、麥克風單元4850、影像捕獲單元4855以及運動偵測單元4865可對應於可穿戴裝置100a、100b或100c的感測器單元210。圖48的控制單元4870可對應於可穿戴裝置100a、100b或100c的控制單元220。圖48的顯示單元4810可對應於可穿戴裝置100b或100c的顯示單元610。圖48的通信單元4830可對應於可穿戴裝置100c的通信單元1810。The touch panel 4847, the microphone unit 4850, the image capturing unit 4855, and the motion detecting unit 4865 of FIG. 48 may correspond to the sensor unit 210 of the wearable device 100a, 100b, or 100c. The control unit 4870 of FIG. 48 may correspond to the control unit 220 of the wearable device 100a, 100b or 100c. The display unit 4810 of FIG. 48 may correspond to the display unit 610 of the wearable device 100b or 100c. The communication unit 4830 of FIG. 48 may correspond to the communication unit 1810 of the wearable device 100c.

圖49說明根據本發明的實施例的可穿戴裝置100藉由使用外部裝置1910a以及載具1910b中的至少一者根據使用者在載具中的狀態執行特定功能的實例。Figure 49 illustrates an example in which the wearable device 100 performs a particular function according to the state of the user in the vehicle by using at least one of the external device 1910a and the carrier 1910b, in accordance with an embodiment of the present invention.

參考圖49，可穿戴裝置100經由網路與外部裝置1910a以及載具1910b中的至少一者通信。網路包括區域網路（Local Area Network；LAN）、廣域網路（Wide Area Network；WAN）、加值網路（Value Added Network；VAN）、行動無線電通信網路、衛星通信網路或其任何組合，且指示能夠允許圖49中繪示的網路參與方相互通信的一般概念資料通信網路，且包含有線網際網路、無線網際網路以及行動無線通信網路。Referring to FIG. 49, the wearable device 100 communicates with at least one of the external device 1910a and the carrier 1910b via a network. The network includes a local area network (LAN), a wide area network (WAN), a value added network (VAN), a mobile radio communication network, a satellite communication network, or any combination thereof. And indicating a general concept data communication network capable of allowing the network participants shown in FIG. 49 to communicate with each other, and including a wired internet, a wireless internet, and a mobile wireless communication network.

歸因於大小約束，可穿戴裝置100具有比外部裝置1910a以及載具1910b的計算能力小的計算能力。因此，可穿戴裝置100使用外部裝置1910a或載具1910b的計算能力，並且根據使用者在載具中的狀態執行特定功能。舉例而言，可穿戴裝置100根據使用者在載具中或是正在駕駛來執行可穿戴裝置100的預設定功能。Due to the size constraint, the wearable device 100 has a computing power that is smaller than the computing power of the external device 1910a and the carrier 1910b. Thus, the wearable device 100 uses the computing power of the external device 1910a or the carrier 1910b and performs a particular function depending on the state of the user in the vehicle. For example, the wearable device 100 performs a preset function of the wearable device 100 according to whether the user is in the vehicle or is driving.

圖50說明根據本發明的實施例的建立與行動裝置1910a以及載具1910b的網路以及當使用者正在駕駛時執行特定功能的方法，所述方法由可穿戴裝置100執行。50 illustrates a method of establishing a network with mobile device 1910a and vehicle 1910b and performing a particular function while the user is driving, in accordance with an embodiment of the present invention, performed by wearable device 100.

參考圖50，與可穿戴裝置100連接的行動裝置1910a藉由使用自載具1910b接收的載具資訊判定使用者是否已進入載具，且藉由使用可穿戴裝置100的移動資訊判定使用者的狀態。Referring to FIG. 50, the mobile device 1910a connected to the wearable device 100 determines whether the user has entered the vehicle by using the vehicle information received from the carrier 1910b, and determines the user's use by using the movement information of the wearable device 100. status.

在步驟S5002中，行動裝置1910a設定與載具1910b的通信，諸如，經由短程通信。In step S5002, the mobile device 1910a sets communication with the carrier 1910b, such as via short-range communication.

在步驟S5004中，載具1910b將載具資訊提供至行動裝置1910a。舉例而言，載具資訊包含載具1910b的模型、載具1910b的唯一編號、載具1910b的狀態資訊以及載具1910b的駕駛資訊。載具1910b的唯一編號包含牌照的編號以及載具1910b的序號。當設定行動裝置1910a與載具1910b之間的通信時，將載具資訊自載具1910b自動傳輸至行動裝置1910a。根據另一實施例，回應於來自行動裝置1910a的請求，載具1910b將載具資訊傳輸至行動裝置1910a。In step S5004, the carrier 1910b provides the vehicle information to the mobile device 1910a. For example, the vehicle information includes the model of the vehicle 1910b, the unique number of the vehicle 1910b, the status information of the vehicle 1910b, and the driving information of the vehicle 1910b. The unique number of the carrier 1910b contains the number of the license plate and the serial number of the vehicle 1910b. When the communication between the mobile device 1910a and the vehicle 1910b is set, the vehicle information is automatically transmitted from the carrier 1910b to the mobile device 1910a. According to another embodiment, in response to a request from the mobile device 1910a, the vehicle 1910b transmits the vehicle information to the mobile device 1910a.

在步驟S5006中，行動裝置1910a藉由自載具1910b接收載具資訊、將接收的載具資訊與在行動裝置1910a中預先註冊的載具資訊比較，並且基於比較判定使用者已進入載具1910b來判定使用者已進入載具1910b。In step S5006, the mobile device 1910a receives the vehicle information from the carrier 1910b, compares the received vehicle information with the vehicle information pre-registered in the mobile device 1910a, and determines that the user has entered the vehicle 1910b based on the comparison. It is determined that the user has entered the vehicle 1910b.

在步驟S5008中，行動裝置1910a請求來自可穿戴裝置100的移動資訊，諸如，按預設定間隔。替代地，當行動裝置1910a判定預設定事件已發生時，行動裝置1910a向可穿戴裝置100請求可穿戴裝置100的移動資訊。舉例而言，當行動裝置1910a判定行動裝置1910a根據預設定圖案移動時，行動裝置1910a向可穿戴裝置100請求可穿戴裝置100的移動資訊。舉例而言，當行動裝置1910a自載具1910b接收預設定載具資訊且判定載具1910b根據預設定圖案移動時，行動裝置1910a向可穿戴裝置100請求可穿戴裝置100的移動資訊。在步驟S5010中，可穿戴裝置100感測可穿戴裝置100的移動。可穿戴裝置100藉由使用可穿戴裝置100中包含的至少一個感測器獲得諸如加速度值、振動值、傾斜值、位置資訊、磁場資訊、接近性/觸摸資訊、影像捕獲信號、聲音或紅外線偵測值的狀態資訊，且產生可穿戴裝置100的移動資訊。In step S5008, the mobile device 1910a requests mobile information from the wearable device 100, such as at a preset interval. Alternatively, when the mobile device 1910a determines that a pre-set event has occurred, the mobile device 1910a requests the wearable device 100 for movement information of the wearable device 100. For example, when the mobile device 1910a determines that the mobile device 1910a is moving according to the preset pattern, the mobile device 1910a requests the wearable device 100 for the movement information of the wearable device 100. For example, when the mobile device 1910a receives the preset vehicle information from the carrier 1910b and determines that the carrier 1910b is moving according to the preset pattern, the mobile device 1910a requests the wearable device 100 for the movement information of the wearable device 100. In step S5010, the wearable device 100 senses the movement of the wearable device 100. The wearable device 100 obtains such as acceleration value, vibration value, tilt value, position information, magnetic field information, proximity/touch information, image capture signal, sound or infrared detection by using at least one sensor included in the wearable device 100. The status information of the measurements is measured and the movement information of the wearable device 100 is generated.

在步驟S5012中，可穿戴裝置100按預設定間隔將可穿戴裝置100的移動資訊提供至行動裝置1910a。替代地，當預設定事件發生時，可穿戴裝置100將可穿戴裝置100的移動資訊傳輸至行動裝置1910a。舉例而言，當可穿戴裝置100的移動的變化值等於或大於預設定值時，可穿戴裝置100將可穿戴裝置100的移動資訊傳輸至行動裝置1910a。舉例而言，當可穿戴裝置100根據預設定圖案移動時，可穿戴裝置100將可穿戴裝置100的移動資訊傳輸至行動裝置1910a。舉例而言，當可穿戴裝置100判定其旋轉在順時針方向上或在逆時針方向上按等於或大於預設定值的角度發生時，可穿戴裝置100將可穿戴裝置100的移動資訊傳輸至行動裝置1910a。In step S5012, the wearable device 100 provides the movement information of the wearable device 100 to the mobile device 1910a at a preset interval. Alternatively, when a preset event occurs, the wearable device 100 transmits the mobile information of the wearable device 100 to the mobile device 1910a. For example, when the change value of the movement of the wearable device 100 is equal to or greater than a preset value, the wearable device 100 transmits the movement information of the wearable device 100 to the mobile device 1910a. For example, when the wearable device 100 moves according to the preset pattern, the wearable device 100 transmits the movement information of the wearable device 100 to the mobile device 1910a. For example, when the wearable device 100 determines that its rotation occurs at an angle equal to or greater than a preset value in a clockwise direction or in a counterclockwise direction, the wearable device 100 transmits the movement information of the wearable device 100 to Mobile device 1910a.

在步驟S5014中，行動裝置1910a藉由分析可穿戴裝置100的移動資訊判定使用者是否正在駕駛。行動裝置1910a藉由進一步使用行動裝置1910a的移動、與載具1910b的通信狀態及/或自載具1910b接收的載具資訊來判定使用者是否正在駕駛。舉例而言，行動裝置1910a判定使用者是否正在駕駛，使用者在駕駛期間停下載具，或由使用者駕駛的載具1910b的速度等於或大於預設定值。In step S5014, the mobile device 1910a determines whether the user is driving by analyzing the movement information of the wearable device 100. The mobile device 1910a determines whether the user is driving by further using the movement of the mobile device 1910a, the communication state with the carrier 1910b, and/or the vehicle information received from the carrier 1910b. For example, the mobile device 1910a determines whether the user is driving, the user stops the download during driving, or the speed of the vehicle 1910b driven by the user is equal to or greater than a preset value.

在步驟S5016中，行動裝置1910a判定對應於駕駛狀態的可穿戴裝置100的預設定功能。可根據使用者的駕駛狀態不同地設定可穿戴裝置100的功能。舉例而言，根據使用者的駕駛狀態的可穿戴裝置100的功能包含控制載具1910b的收音機以及光學光碟播放器、控制載具1910b的導航、改變可穿戴裝置100的通信設定以及啟動/不啟動可穿戴裝置100的螢幕。In step S5016, the mobile device 1910a determines a preset function of the wearable device 100 corresponding to the driving state. The function of the wearable device 100 can be set differently depending on the driving state of the user. For example, the functions of the wearable device 100 according to the driving state of the user include controlling the radio of the carrier 1910b and the optical disc player, controlling the navigation of the carrier 1910b, changing the communication settings of the wearable device 100, and starting/deactivating The screen of the wearable device 100.

在步驟S5018中，行動裝置1910a將用於改變功能設定或執行功能的控制命令提供至可穿戴裝置100。行動裝置1910a辨識裝設在可穿戴裝置100中的OS，且將具有可由可穿戴裝置100使用的格式的控制命令傳輸至可穿戴裝置100。In step S5018, the mobile device 1910a supplies a control command for changing the function setting or execution function to the wearable device 100. The mobile device 1910a recognizes the OS installed in the wearable device 100 and transmits a control command having a format usable by the wearable device 100 to the wearable device 100.

在步驟S5020中，可穿戴裝置100藉由使用自行動裝置1910a接收的控制命令來改變功能設定或執行可穿戴裝置100的功能。舉例而言，可穿戴裝置100在可穿戴裝置100的螢幕上顯示用於改變載具1910b的收音機以及光學光碟播放器的音量的使用者介面，以及用於控制載具1910b的導航的使用者介面。舉例而言，可穿戴裝置100改變可穿戴裝置100的通信設定。舉例而言，可穿戴裝置100啟動或去啟動可穿戴裝置100的螢幕。圖51說明根據本發明的實施例的建立與行動裝置1910a的網路以及當使用者正在駕駛時執行特定功能的方法，所述方法由可穿戴裝置100執行。參考圖51，可穿戴裝置100以及行動裝置1910a可不與載具1910b通信。行動裝置1910a改變可穿戴裝置100的功能設定，或當行動裝置1910a與可穿戴裝置100通信時執行可穿戴裝置100的功能。In step S5020, the wearable device 100 changes the function setting or performs the function of the wearable device 100 by using the control command received from the mobile device 1910a. For example, the wearable device 100 displays a user interface for changing the volume of the radio of the carrier 1910b and the optical disc player on the screen of the wearable device 100, and a user interface for controlling navigation of the carrier 1910b. . For example, the wearable device 100 changes the communication settings of the wearable device 100. For example, the wearable device 100 activates or deactivates the screen of the wearable device 100. FIG. 51 illustrates a method of establishing a network with a mobile device 1910a and performing a particular function while the user is driving, the method being performed by the wearable device 100, in accordance with an embodiment of the present invention. Referring to FIG. 51, the wearable device 100 and the mobile device 1910a may not be in communication with the carrier 1910b. The mobile device 1910a changes the function setting of the wearable device 100 or performs the function of the wearable device 100 when the mobile device 1910a communicates with the wearable device 100.

圖51的步驟S5106至S5118對應於圖50的S5008至S5020，且因此為了描述的方便起見，不在此處作描述。Steps S5106 to S5118 of Fig. 51 correspond to S5008 to S5020 of Fig. 50, and thus will not be described here for the convenience of description.

在步驟S5102中，行動裝置1910a藉由使用行動裝置1910a中的至少一個感測器來感測行動裝置1910a的移動。In step S5102, the mobile device 1910a senses the movement of the mobile device 1910a by using at least one of the mobile devices 1910a.

在步驟S5104中，當行動裝置1910a的移動圖案對應於預設定圖案時，行動裝置1910a判定使用者是否已進入載具1910b。舉例而言，當行動裝置1910a的移動速度等於或大於預設定值時，行動裝置1910a判定使用者已進入載具1910b。In step S5104, when the movement pattern of the mobile device 1910a corresponds to the preset pattern, the mobile device 1910a determines whether the user has entered the vehicle 1910b. For example, when the moving speed of the mobile device 1910a is equal to or greater than a preset value, the mobile device 1910a determines that the user has entered the vehicle 1910b.

當行動裝置1910a判定使用者已進入載具1910b時，行動裝置1910a在行動裝置1910a周圍搜尋可穿戴裝置100。在步驟S5106中，行動裝置1910a向可穿戴裝置100請求可穿戴裝置100的移動資訊。When the mobile device 1910a determines that the user has entered the vehicle 1910b, the mobile device 1910a searches for the wearable device 100 around the mobile device 1910a. In step S5106, the mobile device 1910a requests the wearable device 100 for the movement information of the wearable device 100.

圖52說明根據本發明的實施例的建立與載具1910b的網路以及當使用者正在駕駛時執行特定功能的方法，所述方法由可穿戴裝置100執行。FIG. 52 illustrates a method of establishing a network with a vehicle 1910b and performing a particular function while the user is driving, the method being performed by the wearable device 100, in accordance with an embodiment of the present invention.

圖52的步驟S5208至S5220對應於圖50的步驟S5008至S5020，且因此為了描述的方便起見，不在此處作描述。Steps S5208 to S5220 of Fig. 52 correspond to steps S5008 to S5020 of Fig. 50, and thus will not be described here for the convenience of description.

在步驟5202中，載具1910b設定與可穿戴裝置100的通信。當使用者在載具1910b中時，可穿戴裝置100搜尋載具1910b，且設定與發現的可穿戴裝置100的通信。In step 5202, the carrier 1910b sets communication with the wearable device 100. When the user is in the carrier 1910b, the wearable device 100 searches for the carrier 1910b and sets up communication with the discovered wearable device 100.

在步驟5204中，可穿戴裝置100將裝置資訊傳輸至載具1910b。由於可穿戴裝置100設定與載具1910b的通信，可穿戴裝置100將可穿戴裝置100的識別值以及OS資訊傳輸至載具1910b。In step 5204, the wearable device 100 transmits the device information to the carrier 1910b. Since the wearable device 100 sets communication with the carrier 1910b, the wearable device 100 transmits the identification value of the wearable device 100 and the OS information to the carrier 1910b.

載具1910b判定使用者已進入載具1910b，且控制可穿戴裝置100的功能。The carrier 1910b determines that the user has entered the vehicle 1910b and controls the functions of the wearable device 100.

圖53說明根據本發明的實施例，當可穿戴裝置100滿足預設定條件時，根據自行動裝置1910a接收的控制命令，執行可穿戴裝置100的功能的方法。53 illustrates a method of performing the function of the wearable device 100 according to a control command received from the mobile device 1910a when the wearable device 100 satisfies a pre-set condition, according to an embodiment of the present invention.

在步驟S5302中，行動裝置1910a判定對應於使用者的駕駛狀態的可穿戴裝置100的預設定功能。根據使用者的駕駛狀態的可穿戴裝置100的功能包含控制載具1910b的收音機以及光學光碟播放器、控制載具1910b的導航、改變可穿戴裝置100的通信設定以及啟動/不啟動可穿戴裝置100的螢幕。In step S5302, the mobile device 1910a determines a preset function of the wearable device 100 corresponding to the driving state of the user. The functions of the wearable device 100 according to the driving state of the user include the radio of the control vehicle 1910b and the optical disc player, the navigation of the control vehicle 1910b, the change of the communication setting of the wearable device 100, and the activation/deactivation of the wearable device 100. Screen.

在步驟S5304中，行動裝置1910a基於（例如）載具1910b的駕駛狀態、載具1910b的當前位置與目的地之間的距離、當前時間或可穿戴裝置100中的當前啟動的功能的類型來判定用於執行可穿戴裝置100的功能的條件。行動裝置1910a分別地設定用於執行可穿戴裝置100的功能的條件。In step S5304, the mobile device 1910a determines based on, for example, the driving state of the vehicle 1910b, the distance between the current position of the vehicle 1910b and the destination, the current time, or the type of currently activated function in the wearable device 100. A condition for performing the function of the wearable device 100. The mobile device 1910a sets conditions for performing the functions of the wearable device 100, respectively.

舉例而言，行動裝置1910a設定條件，使得當行動裝置1910a判定載具1910b已停下來大於預設定的時間週期時，可穿戴裝置100執行特定功能。舉例而言，行動裝置1910a設定條件，使得當行動裝置1910a判定載具1910b已停下來大於5秒時，可穿戴裝置100啟動可穿戴裝置100的螢幕。For example, the mobile device 1910a sets conditions such that when the mobile device 1910a determines that the vehicle 1910b has stopped for more than a predetermined period of time, the wearable device 100 performs a particular function. For example, the mobile device 1910a sets conditions such that when the mobile device 1910a determines that the vehicle 1910b has stopped for more than 5 seconds, the wearable device 100 activates the screen of the wearable device 100.

舉例而言，當行動裝置1910a判定載具1910b正運轉大於預設定的時間週期時，行動裝置1910a設定可穿戴裝置100執行或不執行特定功能所根據的條件。舉例而言，當行動裝置1910a判定載具1910b正運轉大於1秒時，行動裝置1910a設定可穿戴裝置100不執行與控制載具1910b不相關的功能所根據的條件。For example, when the mobile device 1910a determines that the vehicle 1910b is operating for more than a predetermined period of time, the mobile device 1910a sets conditions under which the wearable device 100 performs or does not perform a particular function. For example, when the mobile device 1910a determines that the vehicle 1910b is operating for more than one second, the mobile device 1910a sets the conditions under which the wearable device 100 does not perform functions unrelated to the control vehicle 1910b.

在步驟S5306中，行動裝置1910a將用於執行可穿戴裝置100的功能的控制命令傳輸至可穿戴裝置100，且在步驟S5308中，行動裝置1910a將關於用於執行可穿戴裝置100的功能的條件的資訊傳輸至可穿戴裝置100。In step S5306, the mobile device 1910a transmits a control command for performing the function of the wearable device 100 to the wearable device 100, and in step S5308, the mobile device 1910a will determine conditions for performing the function of the wearable device 100. The information is transmitted to the wearable device 100.

在步驟S5310中，可穿戴裝置100藉由使用可穿戴裝置100中包含的各種感測器來感測可穿戴裝置100的移動。然而，一或多個實施例不限於此，且可穿戴裝置100獲得對於可穿戴裝置100判定是否滿足用於執行對應於來自行動裝置1910a的控制命令的功能的條件所需的各種類型的資訊。In step S5310, the wearable device 100 senses the movement of the wearable device 100 by using various sensors included in the wearable device 100. However, one or more embodiments are not limited thereto, and the wearable device 100 obtains various types of information required for the wearable device 100 to determine whether or not a condition for executing a function corresponding to a control command from the mobile device 1910a is satisfied.

在步驟S5312中，可穿戴裝置100藉由辨識對應於自行動裝置1910a接收的控制命令的功能來判定是否滿足用於執行功能的條件。舉例而言，若對應於自行動裝置1910a接收的控制命令的功能為啟動可穿戴裝置100的螢幕，則可穿戴裝置100基於可穿戴裝置100的移動資訊判定載具1910b是否已停下來大於5秒。In step S5312, the wearable device 100 determines whether the condition for executing the function is satisfied by recognizing the function corresponding to the control command received from the mobile device 1910a. For example, if the function corresponding to the control command received from the mobile device 1910a is to activate the screen of the wearable device 100, the wearable device 100 determines whether the carrier 1910b has stopped for more than 5 seconds based on the movement information of the wearable device 100. .

作為在步驟S5312中的判定的結果，當可穿戴裝置100判定滿足用於執行可穿戴裝置100的功能的條件時，在步驟S5314中，可穿戴裝置100根據控制命令執行可穿戴裝置100的功能。As a result of the determination in step S5312, when the wearable device 100 determines that the condition for executing the function of the wearable device 100 is satisfied, the wearable device 100 performs the function of the wearable device 100 in accordance with the control command in step S5314.

圖54說明根據本發明的實施例，當可穿戴裝置100c滿足預設定條件時，根據自載具1910b接收的控制命令執行可穿戴裝置100c的功能的方法。FIG. 54 illustrates a method of performing a function of the wearable device 100c according to a control command received from the carrier 1910b when the wearable device 100c satisfies a pre-set condition, according to an embodiment of the present invention.

參考圖54，類似於圖53的行動裝置1910a，載具1910b判定用於執行可穿戴裝置100c的功能的條件，且將用於執行可穿戴裝置100c的功能的控制命令以及條件資訊傳輸至可穿戴裝置100c。Referring to FIG. 54, similar to the mobile device 1910a of FIG. 53, the carrier 1910b determines conditions for performing functions of the wearable device 100c, and transmits control commands and condition information for performing functions of the wearable device 100c to wearable Device 100c.

圖55說明根據本發明的實施例的正在駕駛載具1910b的使用者的可穿戴裝置100，以及行動裝置1910a執行與另一使用者的另一裝置200的電話呼叫的實例。Figure 55 illustrates an example of a wearable device 100 of a user who is driving a vehicle 1910b, and a mobile device 1910a performing a telephone call with another device 200 of another user, in accordance with an embodiment of the present invention.

參考圖55，另一使用者的另一裝置200打電話給使用者的行動裝置1910a，且當使用者正在駕駛時，行動裝置1910a與可穿戴裝置100c互相操作，以便允許使用者經由可穿戴裝置100c與另一使用者的電話進行呼叫。行動裝置1910a在可穿戴裝置100c與另一裝置200之間分程傳遞用於電話呼叫的呼叫語音。行動裝置1910a將另一裝置200的呼叫者資訊提供至可穿戴裝置100c，以便連接可穿戴裝置100c與另一裝置200之間的呼叫。Referring to FIG. 55, another device 200 of another user makes a call to the user's mobile device 1910a, and when the user is driving, the mobile device 1910a and the wearable device 100c interoperate to allow the user to pass the wearable device. 100c makes a call with another user's phone. The mobile device 1910a splits the call voice for the telephone call between the wearable device 100c and the other device 200. The mobile device 1910a provides caller information of the other device 200 to the wearable device 100c to connect a call between the wearable device 100c and another device 200.

圖56說明根據本發明的實施例的經由行動裝置1910a打電話給另一裝置200的方法，所述方法由正在駕駛的使用者的可穿戴裝置100c執行。在圖56中，具有啟動的呼叫功能的行動裝置1910a在可穿戴裝置100c與另一裝置200之間分程傳遞電話呼叫。Figure 56 illustrates a method of making a call to another device 200 via a mobile device 1910a, performed by a wearable device 100c of a user who is driving, in accordance with an embodiment of the present invention. In FIG. 56, the mobile device 1910a having the activated call function relays a telephone call between the wearable device 100c and another device 200.

在步驟S5600中，行動裝置1910a藉由分析可穿戴裝置100c的移動判定使用者是否正在駕駛。行動裝置1910a藉由使用行動裝置1910a的移動、與載具1910b的通信狀態及/或自載具1910b接收的載具資訊判定使用者是否正在駕駛。舉例而言，行動裝置1910a判定使用者是否正在駕駛，使用者在駕駛期間是否將載具1910b停下，以及由使用者駕駛的載具1910b的速度是否等於或大於預設定的值。In step S5600, the mobile device 1910a determines whether the user is driving by analyzing the movement of the wearable device 100c. The mobile device 1910a determines whether the user is driving by using the movement of the mobile device 1910a, the communication state with the carrier 1910b, and/or the vehicle information received from the carrier 1910b. For example, the mobile device 1910a determines whether the user is driving, whether the user stops the vehicle 1910b during driving, and whether the speed of the vehicle 1910b driven by the user is equal to or greater than a preset value.

在步驟S5602中，行動裝置1910a藉由判定在載具1910b中的導航裝置是否正在操作來判定是否執行行動裝置1910a中的導航應用程式。In step S5602, the mobile device 1910a determines whether to execute the navigation application in the mobile device 1910a by determining whether the navigation device in the vehicle 1910b is operating.

在步驟S5604中，行動裝置1910a自另一裝置200接收用於電話呼叫的呼叫信號。另一裝置200將用於電話呼叫的呼叫信號傳輸至接收傳輸的呼叫信號的行動裝置1910a。In step S5604, the mobile device 1910a receives a call signal for a telephone call from another device 200. Another device 200 transmits a call signal for a telephone call to a mobile device 1910a that receives the transmitted call signal.

在步驟S5606中，行動裝置1910a通知可穿戴裝置100c自另一裝置200接收到呼叫信號。當行動裝置1910a判定使用者正在駕駛時，行動裝置1910a通知可穿戴裝置100c自另一裝置200接收到呼叫信號。當行動裝置1910a判定執行行動裝置1910a中的導航應用程式時，行動裝置1910a通知可穿戴裝置100c自另一裝置200接收到呼叫信號。在此情況下，行動裝置1910a將另一裝置200的呼叫者資訊（諸如，電話號碼或使用者姓名）提供至可穿戴裝置100c。In step S5606, the mobile device 1910a notifies the wearable device 100c of receiving the call signal from the other device 200. When the mobile device 1910a determines that the user is driving, the mobile device 1910a notifies the wearable device 100c that a call signal is received from the other device 200. When the mobile device 1910a determines to execute the navigation application in the mobile device 1910a, the mobile device 1910a notifies the wearable device 100c that the call signal is received from the other device 200. In this case, the mobile device 1910a provides caller information (such as a phone number or user name) of the other device 200 to the wearable device 100c.

在步驟S5608中，可穿戴裝置100c顯示用於電話呼叫的使用者介面。可穿戴裝置100c經由可穿戴裝置100c的顯示器輸出自行動裝置1910a接收的呼叫者資訊。用於電話呼叫的使用者介面包含用於判定是否執行與另一裝置200的電話呼叫的按鈕。可穿戴裝置100c經由可穿戴裝置100c的揚聲器輸出鈴聲，或藉由使用可穿戴裝置100c中的振動板產生振動。In step S5608, the wearable device 100c displays a user interface for a telephone call. The wearable device 100c outputs the caller information received from the mobile device 1910a via the display of the wearable device 100c. The user interface for the phone call includes a button for determining whether to perform a phone call with another device 200. The wearable device 100c outputs a ringtone via a speaker of the wearable device 100c, or generates vibration by using a vibration plate in the wearable device 100c.

在步驟S5610中，可穿戴裝置100c經由所顯示使用者介面接收用於電話呼叫的使用者輸入。可穿戴裝置100c接收使用者的用於電話呼叫的語音命令。In step S5610, the wearable device 100c receives user input for a phone call via the displayed user interface. The wearable device 100c receives a user's voice command for a telephone call.

在步驟S5612中，可穿戴裝置100c向行動裝置1910a請求行動裝置1910a與另一裝置200之間的呼叫連接。可穿戴裝置100c請求行動裝置1910a建立用於行動裝置1910a與另一裝置200之間的電話呼叫的網路。In step S5612, the wearable device 100c requests the mobile device 1910a for a call connection between the mobile device 1910a and another device 200. The wearable device 100c requests the mobile device 1910a to establish a network for a telephone call between the mobile device 1910a and another device 200.

在步驟S5614中，行動裝置1910a藉由建立用於與另一裝置200的電話呼叫的網路來連接與另一裝置200的呼叫。由於在行動裝置1910a與另一裝置200之間連接呼叫，使行動裝置1910a能夠在可穿戴裝置100c與另一裝置200之間分程傳遞電話呼叫。In step S5614, the mobile device 1910a connects a call with another device 200 by establishing a network for a telephone call with another device 200. Since the call is connected between the mobile device 1910a and another device 200, the mobile device 1910a is enabled to split the telephone call between the wearable device 100c and the other device 200.

在步驟S5616中，行動裝置1910a自另一裝置200接收另一使用者的呼叫語音。另一裝置200獲得另一使用者的呼叫語音，且將另一使用者的獲得的呼叫語音傳輸至行動裝置1910a。行動裝置1910a自另一裝置200接收自另一裝置200傳輸的另一使用者的呼叫語音。In step S5616, the mobile device 1910a receives the call voice of another user from the other device 200. Another device 200 obtains the call voice of the other user and transmits the obtained call voice of the other user to the mobile device 1910a. The mobile device 1910a receives a call voice of another user transmitted from another device 200 from another device 200.

在步驟S5618中，行動裝置1910a將另一使用者的呼叫語音提供至可穿戴裝置100c。行動裝置1910a經由藉由可穿戴裝置100c預設定的網路將另一使用者的呼叫語音分程傳遞至可穿戴裝置100c。在此情況下，行動裝置1910a根據可穿戴裝置100c的規格轉換另一使用者的呼叫語音的格式。In step S5618, the mobile device 1910a provides the call voice of the other user to the wearable device 100c. The mobile device 1910a transmits the call voice split of another user to the wearable device 100c via the network pre-set by the wearable device 100c. In this case, the mobile device 1910a converts the format of the call voice of another user according to the specifications of the wearable device 100c.

在步驟S5620中，可穿戴裝置100c經由可穿戴裝置100c的揚聲器輸出另一使用者的呼叫語音。可穿戴裝置100c將另一使用者的呼叫語音轉換成文字，且經由可穿戴裝置100c的顯示器輸出文字。In step S5620, the wearable device 100c outputs the call voice of the other user via the speaker of the wearable device 100c. The wearable device 100c converts the call voice of another user into text, and outputs the text via the display of the wearable device 100c.

在步驟S5622中，可穿戴裝置100c獲得自使用者輸入的呼叫語音。對於與另一使用者的電話呼叫，使用者可朝向可穿戴裝置100c說出呼叫語音，且可穿戴裝置100c可記錄使用者的呼叫語音。In step S5622, the wearable device 100c obtains the call voice input from the user. For a telephone call with another user, the user can speak the call voice toward the wearable device 100c, and the wearable device 100c can record the call voice of the user.

在步驟S5624中，可穿戴裝置100c將使用者的呼叫語音提供至行動裝置1910a，且在步驟S5626中，行動裝置1910a將使用者的呼叫語音提供至另一裝置200。行動裝置1910a可將使用者的呼叫語音分程傳遞至另一裝置200。In step S5624, the wearable device 100c provides the user's call voice to the mobile device 1910a, and in step S5626, the mobile device 1910a provides the user's call voice to the other device 200. The mobile device 1910a can pass the user's call voice split to another device 200.

圖57說明根據本發明的實施例的直接執行與另一裝置200的電話呼叫的方法，所述方法由正在駕駛的使用者的可穿戴裝置100執行。57 illustrates a method of directly performing a telephone call with another device 200, performed by a wearable device 100 of a user who is driving, in accordance with an embodiment of the present invention.

圖57的步驟S5700至S5710對應於圖56的步驟S5600至S5610，且因此為了描述的方便起見，將不在此處作描述。Steps S5700 to S5710 of Fig. 57 correspond to steps S5600 to S5610 of Fig. 56, and thus will not be described here for the convenience of description.

在步驟S5712中，在行動裝置1910a通知可穿戴裝置100c接收到呼叫後，行動裝置1910a結束電話呼叫功能。可穿戴裝置100c將指示可穿戴裝置100c已成功地接收到呼叫的接收的通知的確認（ACK）信號傳輸至行動裝置1910a。在行動裝置1910a接收到ACK信號後，行動裝置1910a結束用於與另一裝置200的電話呼叫的電話呼叫功能。In step S5712, after the mobile device 1910a notifies the wearable device 100c that the call is received, the mobile device 1910a ends the telephone call function. The wearable device 100c transmits an acknowledgment (ACK) signal indicating that the wearable device 100c has successfully received the notification of the reception of the call to the mobile device 1910a. After the mobile device 1910a receives the ACK signal, the mobile device 1910a ends the telephone call function for the telephone call with the other device 200.

然而，當行動裝置1910a結束電話呼叫功能時的時間不限於此。舉例而言，在行動裝置1910a確信可穿戴裝置100c與另一裝置200之間的電話呼叫的開始後，行動裝置1910a結束電話呼叫功能。替代地，在可穿戴裝置100c請求另一裝置200建立用於與另一裝置200的電話呼叫的網路後，行動裝置1910a結束電話呼叫功能。However, the time when the mobile device 1910a ends the telephone call function is not limited to this. For example, after the mobile device 1910a is convinced that the telephone call between the wearable device 100c and the other device 200 has begun, the mobile device 1910a ends the telephone call function. Alternatively, after the wearable device 100c requests another device 200 to establish a network for a telephone call with another device 200, the mobile device 1910a ends the telephone call function.

在步驟S5714中，可穿戴裝置100c建立用於與另一裝置200的電話呼叫的網路。在可穿戴裝置100c接收到用於電話呼叫的使用者輸入後，可穿戴裝置100c藉由使用自行動裝置1910a接收的另一裝置200的電話號碼向另一裝置200請求呼叫連接。在此情況下，可穿戴裝置100c通知另一裝置200 可穿戴裝置100c的使用者與行動裝置1910a的使用者相同。In step S5714, the wearable device 100c establishes a network for a telephone call with another device 200. After the wearable device 100c receives the user input for the telephone call, the wearable device 100c requests the call connection to the other device 200 by using the telephone number of the other device 200 received from the mobile device 1910a. In this case, the wearable device 100c notifies the other device 200 that the user of the wearable device 100c is the same as the user of the mobile device 1910a.

另一裝置200自可穿戴裝置100c接收對呼叫連接的請求並且在其顯示器上顯示用於呼叫連接的使用者介面。另一裝置200在所顯示使用者介面上顯示諸如「您是否想要將呼叫連接至當前由您呼叫的行動裝置1910a的使用者使用的可穿戴裝置100c？（Do you want to connect a call to the wearable device 100c currently used by the user of the mobile device 1910a that you called?）」的問題。Another device 200 receives a request for a call connection from the wearable device 100c and displays a user interface for the call connection on its display. Another device 200 displays on the displayed user interface such as "Do you want to connect the call to the wearable device 100c used by the user of the mobile device 1910a that you are currently calling? (Do you want to connect a call to the Wearable device 100c currently used by the user of the mobile device 1910a that you called?)".

另一裝置200基於至所顯示使用者介面的使用者輸入建立用於另一裝置200與可穿戴裝置100c之間的呼叫的網路。Another device 200 establishes a network for a call between another device 200 and the wearable device 100c based on user input to the displayed user interface.

在步驟S5716中，可穿戴裝置100c自另一裝置200接收另一使用者的呼叫語音。另一裝置200獲得另一使用者的呼叫語音，且將另一使用者的獲得的呼叫語音傳輸至可穿戴裝置100c。In step S5716, the wearable device 100c receives the call voice of another user from the other device 200. Another device 200 obtains the call voice of the other user and transmits the obtained call voice of the other user to the wearable device 100c.

在步驟S5718中，可穿戴裝置100c經由可穿戴裝置100c的揚聲器輸出另一使用者的呼叫語音。可穿戴裝置100c將另一使用者的呼叫語音轉換成文字，且經由可穿戴裝置100c的顯示器輸出文字。In step S5718, the wearable device 100c outputs the call voice of the other user via the speaker of the wearable device 100c. The wearable device 100c converts the call voice of another user into text, and outputs the text via the display of the wearable device 100c.

在步驟S5720中，可穿戴裝置100c獲得自使用者輸入的呼叫語音。對於與另一使用者的電話呼叫，使用者可朝向可穿戴裝置100c說出呼叫語音，且可穿戴裝置100c可記錄使用者的呼叫語音。In step S5720, the wearable device 100c obtains the call voice input from the user. For a telephone call with another user, the user can speak the call voice toward the wearable device 100c, and the wearable device 100c can record the call voice of the user.

在步驟S5722中，可穿戴裝置100c將使用者的呼叫語音提供至另一裝置200。In step S5722, the wearable device 100c provides the user's call voice to the other device 200.

如上所述，根據以上實施例中的一或多者，當可穿戴裝置辨識到使用者的運動且提供預設定功能時，可防止可穿戴裝置執行不同於使用者的意圖的誤操作。As described above, according to one or more of the above embodiments, when the wearable device recognizes the motion of the user and provides the preset function, the wearable device can be prevented from performing an erroneous operation different from the intention of the user.

並且，根據以上實施例中的一或多者，當可穿戴裝置的使用者正在駕駛時，可藉由改變可穿戴裝置的功能的設定或藉由執行所需的功能來改良使用者方便性。Also, according to one or more of the above embodiments, when the user of the wearable device is driving, user convenience can be improved by changing the setting of the function of the wearable device or by performing a desired function.

並且，根據以上實施例中的一或多者，當可穿戴裝置的使用者正在駕駛時，可藉由與載具通信來對使用者提供各種功能。Also, according to one or more of the above embodiments, when the user of the wearable device is driving, various functions can be provided to the user by communicating with the vehicle.

並且，根據以上實施例中的一或多者，可允許可穿戴裝置在使用者正在駕駛時進一步正確地辨識使用者的狀態。Also, according to one or more of the above embodiments, the wearable device can be allowed to further correctly recognize the state of the user while the user is driving.

一或多個實施例亦可實施為電腦可讀記錄媒體上的電腦可讀程式碼。電腦可讀記錄媒體為可儲存資料的任何資料儲存裝置，資料此後可由電腦系統讀取。One or more embodiments can also be embodied as computer readable code on a computer readable recording medium. The computer readable recording medium is any data storage device that can store data, and the data can be read by the computer system thereafter.

電腦可讀程式碼在由電腦可讀記錄媒體讀取以及執行時執行根據一或多個實施例的控制裝置的方法。電腦可讀程式碼可由各種程式化語言形成。並且，用於實現一或多個實施例的功能程式、程式碼以及程式碼片段可易於由熟悉本發明屬於的此項技術的程式設計師解釋。The computer readable code is a method of executing a control device in accordance with one or more embodiments when read and executed by a computer readable recording medium. Computer readable code can be formed from a variety of stylized languages. Also, functional programs, code, and code segments for implementing one or more embodiments can be readily interpreted by a programmer skilled in the art to which the invention pertains.

電腦可讀記錄媒體的實例包含ROM、RAM、CD-ROM、磁帶、軟性磁碟、光學資料儲存裝置等。電腦可讀記錄媒體亦可分佈於網路耦接式電腦系統上，使得以分散式方式儲存以及執行電腦可讀程式碼。Examples of the computer readable recording medium include a ROM, a RAM, a CD-ROM, a magnetic tape, a flexible disk, an optical data storage device, and the like. The computer readable recording medium can also be distributed over a network coupled computer system to enable storage and execution of computer readable code in a decentralized manner.

應理解，本文中所描述的實施例應僅按描述性意義來考慮，而非出於限制的目的。每一實施例內的特徵或觀點的描述通常應被視為可用於其他實施例中的其他類似特徵或觀點。It is to be understood that the embodiments described herein are to be considered in a Descriptions of features or points of view within each embodiment should generally be considered as other similar features or aspects that may be used in other embodiments.

雖然已參考諸圖描述一或多個實施例，但一般熟習此項技術者將理解，可在不脫離以下申請專利範圍界定的精神以及範疇的情況下在其中進行形式以及細節的各種改變。While the invention has been described with respect to the embodiments of the embodiments of the present invention, it will be understood that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

100、100a、100b、100c、100d‧‧‧可穿戴裝置
200‧‧‧另一裝置
210、210a‧‧‧感測器單元
220‧‧‧控制單元
302‧‧‧陀螺儀感測器
304‧‧‧位置偵測模組
306‧‧‧磁場感測器
308‧‧‧觸控式螢幕
310‧‧‧接近性/觸控感測器
312‧‧‧加速度感測器
314、1610、3760、3820‧‧‧相機
316‧‧‧麥克風
318‧‧‧紅外線感測器
320‧‧‧傾斜感測器
610、2314、2910、4810‧‧‧顯示單元
1810、1810a、1810b‧‧‧通信單元
1910a‧‧‧外部裝置/智慧型電話/行動裝置
1910b‧‧‧外部裝置/載具
1910c‧‧‧外部裝置/可穿戴裝置
2010、2210‧‧‧Bluetooth®模組
2020‧‧‧Wi-Fi模組
2030‧‧‧NFC模組
2040‧‧‧行動通信模組
2310‧‧‧輸出單元
2312‧‧‧揚聲器
2610‧‧‧方向盤
2710‧‧‧錶帶
2722‧‧‧錶盤的後表面
2724、2830、2930‧‧‧內圓周表面
2726、2820‧‧‧連接部分
2730‧‧‧錶盤
2810、2920、3030‧‧‧主體
2940‧‧‧外圓周表面
3010‧‧‧外圓周部分
3020‧‧‧振動板
3410、3410a、3410b‧‧‧載具踏板
3710‧‧‧眼鏡邊緣
3720‧‧‧眼鏡鏡腿
3730‧‧‧後頰
3740‧‧‧鼻墊
3750‧‧‧眼鏡鏡片
3810‧‧‧安全帽殼
3830‧‧‧內襯或護罩
4811‧‧‧顯示面板
4820‧‧‧記憶體
4825‧‧‧GPS晶片
4830‧‧‧通信單元
4831‧‧‧Wi-Fi晶片
4832‧‧‧Bluetooth®晶片
4833‧‧‧無線通信晶片
4834‧‧‧NFC晶片
4835‧‧‧視訊處理器
4840‧‧‧音訊處理器
4845‧‧‧使用者輸入單元
4846‧‧‧鍵
4847‧‧‧觸控面板
4848‧‧‧筆辨識面板
4850‧‧‧麥克風單元
4855‧‧‧影像捕獲單元
4860‧‧‧揚聲器單元
4865‧‧‧運動偵測單元
4870‧‧‧控制單元
4871‧‧‧RAM
4872‧‧‧ROM
4873‧‧‧中央處理單元（CPU）
4874‧‧‧圖形處理器單元（GPU）
S110、S120、S402、S404、S406、S502、S504、S702、S704、S902、S904、S1002、S1004、S1402、S1404、S1406、S2102、S2104、S2106、S2402、S2404、S2406、S2408、S2502、S2504、S2506、S3202、S3204、S3206、S3602、S3604、S3606、S3902、S3904、S3906、S3908、S4002、S4004、S4006、S4008、S4010、S4102、S4104、S4106、S4202、S4204、S4206、S4302、S4304、S4306、S4402、S4404、S4406、S4408、S4410、S4412、S4502、S4504、S4506、S4602、S4604、S4606、S4702、S4704、S4706、S5002、S5004、S5006、S5008、S5010、S5012、S5014、S5016、S5018、S5020、S5102、S5104、S5106、S5108、S5110、S5112、S5114、S5116、S5118、S5202、S5204、S5206、S5208、S5210、S5212、S5214、S5216、S5218、S5220、S5302、S5304、S5306、S5308、S5310、S5312、S5314、S5402、S5404、S5406、S5408、S5410、S5412、S5414、S5600、S5602、S5604、S5606、S5608、S5610、S5612、S5614、S5616、S5618、S5620、S5622、S5624、S5626、S5700、S5702、S5704、S5706、S5708、S5710、S5712、S5714、S5716、S5718、S5720、S5722‧‧‧步驟100, 100a, 100b, 100c, 100d‧‧‧ wearable devices
200‧‧‧ another device
210, 210a‧‧‧ sensor unit
220‧‧‧Control unit
302‧‧‧Gyro sensor
304‧‧‧ Position Detection Module
306‧‧‧Magnetic field sensor
308‧‧‧Touch screen
310‧‧‧Proximity/Touch Sensor
312‧‧‧Acceleration sensor
314, 1610, 3760, 3820‧ ‧ camera
316‧‧‧ microphone
318‧‧‧Infrared sensor
320‧‧‧ tilt sensor
610, 2314, 2910, 4810‧‧‧ display units
1810, 1810a, 1810b‧‧‧ communication unit
1910a‧‧‧External device/smart phone/mobile device
1910b‧‧‧External devices/carriers
1910c‧‧‧External device/wearable device
2010, 2210‧‧‧Bluetooth® modules
2020‧‧ Wi-Fi module
2030‧‧‧NFC module
2040‧‧‧Mobile communication module
2310‧‧‧Output unit
2312‧‧‧ Speaker
2610‧‧‧Steering wheel
2710‧‧‧ Strap
2722‧‧‧Back surface of the dial
2724, 2830, 2930‧‧‧ inner circumferential surface
2726, 2820‧‧‧Connected parts
2730‧‧‧ dial
2810, 2920, 3030‧‧‧ subjects
2940‧‧‧ outer circumferential surface
3010‧‧‧ outer circumference
3020‧‧‧vibration board
3410, 3410a, 3410b‧‧‧ Vehicle pedals
3710‧‧‧ glasses edge
3720‧‧‧ glasses temples
3730‧‧‧The cheek
3740‧‧‧ nose pad
3750‧‧‧ glasses lenses
3810‧‧‧Safety Cap
3830‧‧‧Line or shield
4811‧‧‧Display panel
4820‧‧‧ memory
4825‧‧‧GPS chip
4830‧‧‧Communication unit
4831‧‧ Wi-Fi chip
4832‧‧‧Bluetooth® Wafer
4833‧‧‧Wireless communication chip
4834‧‧‧NFC chip
4835‧‧‧Video Processor
4840‧‧‧Optical processor
4845‧‧‧User input unit
4846‧‧‧ key
4847‧‧‧Touch panel
4848‧‧‧ pen identification panel
4850‧‧‧Microphone unit
4855‧‧‧Image capture unit
4860‧‧‧Speaker unit
4865‧‧‧Motion detection unit
4870‧‧‧Control unit
4871‧‧‧RAM
4872‧‧‧ROM
4873‧‧‧Central Processing Unit (CPU)
4874‧‧‧Graphic Processor Unit (GPU)
S110, S120, S402, S404, S406, S502, S504, S702, S704, S902, S904, S1002, S1004, S1402, S1404, S1406, S2102, S2104, S2106, S2402, S2404, S2406, S2408, S2502, S2504, S2506, S3202, S3204, S3206, S3602, S3604, S3606, S3902, S3904, S3906, S3908, S4002, S4004, S4006, S4008, S4010, S4102, S4104, S4106, S4202, S4204, S4206, S4302, S4304, S4306, S4402, S4404, S4406, S4408, S4410, S4122, S4502, S4504, S4506, S4602, S4604, S4606, S4702, S4704, S4706, S5002, S5004, S5006, S5008, S5010, S5012, S5014, S5016, S5018, S5020, S5102, S5104, S5106, S5108, S5110, S5122, S5114, S5116, S5118, S5202, S5204, S5206, S5208, S5210, S5212, S5214, S5216, S5218, S5220, S5302, S5304, S5306, S5308, S5310, S5312 S5314, S5402, S5404, S5406, S5408, S5410, S5412, S5414, S5600, S5602, S5604, S5606, S5608, S5610, S5612, S5614, S5616, S5618, S5620, S5622, S5624, S5626, S5700, S5702, S5704, S5706, S57 08, S5710, S5712, S5714, S5716, S5718, S5720, S5722‧‧

自結合隨附圖式的以下詳細描述，本發明的某些實施例的以上以及其他觀點、特徵以及優點將變得更顯而易見。 圖1說明根據本發明的實施例的可穿戴裝置的操作。 圖2說明根據本發明的實施例的可穿戴裝置。 圖3說明根據本發明的實施例的感測器單元。 圖4說明根據本發明的實施例的控制可穿戴裝置的方法。 圖5說明根據本發明的實施例的改變可穿戴裝置的功能的設定的程序。 圖6說明根據本發明的實施例的可穿戴裝置。 圖7說明根據本發明的實施例的可穿戴裝置的操作。 圖8說明根據本發明的實施例的由可穿戴裝置進行的運動辨識。 圖9說明根據本發明的另一實施例的可穿戴裝置的操作。 圖10說明根據本發明的另一實施例的可穿戴裝置的操作。 圖11說明根據本發明的另一實施例的可穿戴裝置的操作。 圖12說明根據本發明的另一實施例的可穿戴裝置的操作。 圖13說明根據本發明的另一實施例的可穿戴裝置的操作。 圖14說明根據本發明的實施例的控制可穿戴裝置的方法。 圖15說明根據本發明的實施例的當使用者正在駕駛時可穿戴裝置執行預設定功能的操作。 圖16說明根據本發明的實施例的當使用者正在駕駛時可穿戴裝置執行預設定功能的操作。 圖17說明根據本發明的實施例的當使用者正在駕駛時可穿戴裝置執行預設定功能的操作。 圖18說明根據本發明的實施例的可穿戴裝置。 圖19說明根據本實施例的可穿戴裝置與外部裝置通信的實例。 圖20說明根據本發明的實施例的通信單元。 圖21說明根據本發明的實施例的控制可穿戴裝置的方法。 圖22說明根據本發明的實施例的可穿戴裝置以及外部裝置。 圖23說明根據本發明的另一實施例的可穿戴裝置以及外部裝置。 圖24說明根據本發明的實施例的控制可穿戴裝置的方法。 圖25說明根據本發明的實施例的判定可穿戴裝置的使用者是否正在駕駛的方法。 圖26說明根據本發明的實施例的判定可穿戴裝置的使用者是否正在駕駛的方法。 圖27（a）至圖27（b）說明根據本發明的實施例的可穿戴裝置。 圖28說明根據本發明的實施例的可穿戴裝置。 圖29說明根據本發明的實施例的可穿戴裝置。 圖30說明根據本發明的實施例的可穿戴裝置。 圖31說明根據本發明的實施例的可穿戴裝置。 圖32說明根據本發明的實施例的判定可穿戴裝置的使用者是否正在駕駛的方法。 圖33說明根據本發明的實施例的判定使用者是否正在駕駛的方法。 圖34說明根據本發明的實施例的判定使用者是否正在駕駛的方法。 圖35說明根據本發明的實施例的判定使用者是否正在駕駛的方法。 圖36說明根據本發明的實施例的判定使用者是否正在駕駛的方法。 圖37說明根據本發明的實施例的判定使用者是否正在駕駛的方法。 圖38說明根據本發明的實施例的判定使用者是否正在駕駛的方法。 圖39說明根據本發明的實施例的判定使用者是否正在駕駛的方法。 圖40說明根據本發明的實施例的控制可穿戴裝置的方法。 圖41說明根據本發明的實施例的判定使用者是否在載具中的方法，所述方法由可穿戴裝置執行。 圖42說明根據本發明的實施例的判定使用者是否在載具中的方法，所述方法由可穿戴裝置執行。 圖43說明根據本發明的實施例的判定可穿戴裝置的使用者是否在載具中的方法。 圖44說明根據本發明的實施例的控制可穿戴裝置的方法。 圖45說明根據本發明的實施例的判定使用者是否在公共運輸上的方法。 圖46說明根據本發明的實施例的判定使用者是否在公共運輸上的方法。 圖47說明根據本發明的實施例的判定使用者是否在公共運輸上的方法。 圖48為說明根據本發明的實施例的可穿戴裝置的組態的方塊圖。 圖49說明根據本發明的實施例的可穿戴裝置藉由使用外部裝置以及載具中的至少一者根據使用者在載具中的狀態執行特定功能的實例。 圖50說明根據本發明的實施例的建立與行動裝置以及載具的網路以及當使用者正在駕駛時執行特定功能的方法，所述方法由可穿戴裝置執行。 圖51說明根據本發明的實施例的建立與行動裝置的網路以及當使用者正在駕駛時執行特定功能的方法，所述方法由可穿戴裝置執行。 圖52說明根據本發明的實施例的建立與載具的網路以及當使用者正在駕駛時執行特定功能的方法，所述方法由可穿戴裝置執行。 圖53說明根據本發明的實施例的當可穿戴裝置滿足預設定條件時根據自行動裝置接收的控制命令執行可穿戴裝置的功能的方法。 圖54說明根據本發明的實施例的當可穿戴裝置滿足預設定條件時根據自載具接收的控制命令執行可穿戴裝置的功能的方法。 圖55說明根據本發明的實施例的正在駕駛載具的使用者的可穿戴裝置以及行動裝置執行與另一使用者的另一裝置的電話呼叫的實例。 圖56說明根據本發明的實施例的經由行動裝置執行與另一裝置的電話呼叫的方法，所述方法由正在駕駛的使用者的可穿戴裝置執行。 圖57說明根據本發明的實施例的直接執行與另一裝置的電話呼叫的方法，所述方法由正在駕駛的使用者的可穿戴裝置執行。The above and other aspects, features and advantages of certain embodiments of the present invention will become more apparent from the Detailed Description FIG. 1 illustrates the operation of a wearable device in accordance with an embodiment of the present invention. 2 illustrates a wearable device in accordance with an embodiment of the present invention. Figure 3 illustrates a sensor unit in accordance with an embodiment of the present invention. 4 illustrates a method of controlling a wearable device in accordance with an embodiment of the present invention. FIG. 5 illustrates a procedure for changing settings of a function of a wearable device in accordance with an embodiment of the present invention. Figure 6 illustrates a wearable device in accordance with an embodiment of the present invention. Figure 7 illustrates the operation of a wearable device in accordance with an embodiment of the present invention. Figure 8 illustrates motion recognition by a wearable device in accordance with an embodiment of the present invention. Figure 9 illustrates the operation of a wearable device in accordance with another embodiment of the present invention. Figure 10 illustrates the operation of a wearable device in accordance with another embodiment of the present invention. Figure 11 illustrates the operation of a wearable device in accordance with another embodiment of the present invention. Figure 12 illustrates the operation of a wearable device in accordance with another embodiment of the present invention. Figure 13 illustrates the operation of a wearable device in accordance with another embodiment of the present invention. Figure 14 illustrates a method of controlling a wearable device in accordance with an embodiment of the present invention. FIG. 15 illustrates an operation of the wearable device to perform a preset function when the user is driving, according to an embodiment of the present invention. 16 illustrates an operation of a wearable device to perform a preset function while a user is driving, according to an embodiment of the present invention. FIG. 17 illustrates an operation of the wearable device to perform a preset function when the user is driving, according to an embodiment of the present invention. Figure 18 illustrates a wearable device in accordance with an embodiment of the present invention. FIG. 19 illustrates an example in which the wearable device communicates with an external device according to the present embodiment. Figure 20 illustrates a communication unit in accordance with an embodiment of the present invention. 21 illustrates a method of controlling a wearable device in accordance with an embodiment of the present invention. Figure 22 illustrates a wearable device and an external device in accordance with an embodiment of the present invention. Figure 23 illustrates a wearable device and an external device in accordance with another embodiment of the present invention. Figure 24 illustrates a method of controlling a wearable device in accordance with an embodiment of the present invention. Figure 25 illustrates a method of determining whether a user of a wearable device is driving, in accordance with an embodiment of the present invention. FIG. 26 illustrates a method of determining whether a user of a wearable device is driving, in accordance with an embodiment of the present invention. 27(a) to 27(b) illustrate a wearable device in accordance with an embodiment of the present invention. Figure 28 illustrates a wearable device in accordance with an embodiment of the present invention. Figure 29 illustrates a wearable device in accordance with an embodiment of the present invention. Figure 30 illustrates a wearable device in accordance with an embodiment of the present invention. Figure 31 illustrates a wearable device in accordance with an embodiment of the present invention. Figure 32 illustrates a method of determining whether a user of a wearable device is driving, in accordance with an embodiment of the present invention. Figure 33 illustrates a method of determining if a user is driving, in accordance with an embodiment of the present invention. Figure 34 illustrates a method of determining if a user is driving, in accordance with an embodiment of the present invention. Figure 35 illustrates a method of determining if a user is driving, in accordance with an embodiment of the present invention. Figure 36 illustrates a method of determining if a user is driving, in accordance with an embodiment of the present invention. Figure 37 illustrates a method of determining if a user is driving, in accordance with an embodiment of the present invention. Figure 38 illustrates a method of determining if a user is driving, in accordance with an embodiment of the present invention. Figure 39 illustrates a method of determining if a user is driving, in accordance with an embodiment of the present invention. Figure 40 illustrates a method of controlling a wearable device in accordance with an embodiment of the present invention. Figure 41 illustrates a method of determining whether a user is in a vehicle, the method being performed by a wearable device, in accordance with an embodiment of the present invention. Figure 42 illustrates a method of determining whether a user is in a vehicle, the method being performed by a wearable device, in accordance with an embodiment of the present invention. Figure 43 illustrates a method of determining whether a user of a wearable device is in a vehicle, in accordance with an embodiment of the present invention. Figure 44 illustrates a method of controlling a wearable device in accordance with an embodiment of the present invention. Figure 45 illustrates a method of determining whether a user is on public transportation, in accordance with an embodiment of the present invention. Figure 46 illustrates a method of determining whether a user is on public transportation, in accordance with an embodiment of the present invention. Figure 47 illustrates a method of determining whether a user is on public transportation, in accordance with an embodiment of the present invention. Figure 48 is a block diagram illustrating the configuration of a wearable device in accordance with an embodiment of the present invention. 49 illustrates an example in which a wearable device performs a specific function according to a state of a user in a vehicle by using at least one of an external device and a carrier, according to an embodiment of the present invention. Figure 50 illustrates a method of establishing a network with a mobile device and a carrier and performing a particular function while the user is driving, the method being performed by the wearable device, in accordance with an embodiment of the present invention. Figure 51 illustrates a method of establishing a network with a mobile device and performing a particular function while the user is driving, the method being performed by the wearable device, in accordance with an embodiment of the present invention. Figure 52 illustrates a method of establishing a network with a vehicle and performing a particular function while the user is driving, the method being performed by the wearable device, in accordance with an embodiment of the present invention. 53 illustrates a method of performing a function of a wearable device according to a control command received from a mobile device when the wearable device satisfies a preset condition, according to an embodiment of the present invention. FIG. 54 illustrates a method of performing a function of a wearable device according to a control command received from a carrier when the wearable device satisfies a preset condition, according to an embodiment of the present invention. Figure 55 illustrates an example of a wearable device of a user who is driving a vehicle and a telephone call that the mobile device performs with another device of another user, in accordance with an embodiment of the present invention. Figure 56 illustrates a method of performing a telephone call with another device via a mobile device, the method being performed by a wearable device of a user who is driving, in accordance with an embodiment of the present invention. Figure 57 illustrates a method of directly performing a telephone call with another device, performed by a wearable device of a user who is driving, in accordance with an embodiment of the present invention.

100a‧‧‧可穿戴裝置 100a‧‧‧ wearable device

210‧‧‧感測器單元 210‧‧‧Sensor unit

220‧‧‧控制單元 220‧‧‧Control unit

Claims (14)

一種行動裝置，包括： 一通訊單元，經配置以從載具接收載具資訊；以及 一控制單元，經配置以決定是否所接收的該載具資訊對應到預先暫存的載具，並且若所接收的該載具資訊對應該預先暫存的載具，判定該行動裝置的使用者正在駕駛該載具。A mobile device comprising: a communication unit configured to receive vehicle information from a carrier; and a control unit configured to determine whether the received vehicle information corresponds to a pre-staged vehicle, and The received vehicle information corresponds to the vehicle that is pre-stored, and the user of the mobile device is determined to be driving the vehicle. 如申請專利範圍第1項所述的行動裝置，其中該控制單元經進一步配置以： 基於至少一個被偵測的移動，判定該行動裝置的狀態是否對應於該行動裝置的該使用者正在駕駛該載具的狀態；以及 根據該行動裝置的該狀態是否對應該行動裝置的該使用者正在駕駛該載具的該狀態，選擇一第一模式或者一第二模式。The mobile device of claim 1, wherein the control unit is further configured to: determine, based on the at least one detected movement, whether the state of the mobile device corresponds to the user of the mobile device is driving the a state of the vehicle; and selecting a first mode or a second mode based on whether the state of the mobile device corresponds to the state in which the user of the mobile device is driving the vehicle. 如申請專利範圍第2項所述的行動裝置，其中該控制單元經進一步配置以： 當該行動裝置的該狀態對應於該行動裝置的該使用者正在駕駛該載具的該狀態時，控制該行動裝置操作在該第二模式中；以及 當該行動裝置的狀態不對應於該行動裝置的該使用者正在駕駛該載具的該狀態時，控制該行動裝置操作在該第一模式中。The mobile device of claim 2, wherein the control unit is further configured to: when the state of the mobile device corresponds to the state in which the user of the mobile device is driving the vehicle, control the The mobile device operates in the second mode; and when the state of the mobile device does not correspond to the state in which the user of the mobile device is driving the vehicle, controlling the mobile device to operate in the first mode. 如申請專利範圍第2項所述的行動裝置，其中預設功能對應於該至少一個被偵測的移動。The mobile device of claim 2, wherein the preset function corresponds to the at least one detected movement. 如申請專利範圍第4項所述的行動裝置，更包括一顯示單元，經配置以顯示該行動裝置的狀態資訊，以及 其中根據該至少一個偵測的移動，該顯示單元經進一步配置以在該第一模式期間自動地啟動以及在該第二模式中自動地撤銷。The mobile device of claim 4, further comprising a display unit configured to display status information of the mobile device, and wherein the display unit is further configured to be configured according to the at least one detected movement The first mode is automatically initiated and automatically revoked in the second mode. 如申請專利範圍第4項所述的行動裝置，其中根據該至少一個偵測的移動，藉由在該行動裝置中執行的一計步器應用程式，在該第一模式計數由該使用者所進行的一移動的數目，並且在該第二模式不計數該移動的數目。The mobile device of claim 4, wherein the first mode is counted by the user in accordance with the at least one detected movement by a pedometer application executing in the mobile device The number of moves made, and the number of moves is not counted in the second mode. 如申請專利範圍第2項所述的行動裝置，其中當該行動裝置的狀態對應於該行動裝置的該使用者正在駕駛該載具的該狀態時，該控制單元經進一步配置以執行預設的一應用程式。The mobile device of claim 2, wherein the control unit is further configured to perform a preset when the state of the mobile device corresponds to the state in which the user of the mobile device is driving the vehicle An application. 如申請專利範圍第2項所述的行動裝置，其中當該行動裝置的狀態對應於該行動裝置的該使用者正在駕駛該載具的該狀態時，該控制單元經進一步配置以阻擋一通知，其從連接該行動裝置的一外部裝置提供至該行動裝置。The mobile device of claim 2, wherein the control unit is further configured to block a notification when the state of the mobile device corresponds to the state in which the user of the mobile device is driving the vehicle, It is provided to the mobile device from an external device connected to the mobile device. 如申請專利範圍第2項所述的行動裝置，更包括一通信單元，經配置以從該載具接收該載具資訊。The mobile device of claim 2, further comprising a communication unit configured to receive the vehicle information from the carrier. 如申請專利範圍第9項所述的行動裝置，其中當該載具資訊是關於公共運輸載具時，該控制單元經進一步配置以判定該行動裝置的狀態不對應於該行動裝置的使用者正在駕駛該載具的該狀態。The mobile device of claim 9, wherein when the vehicle information is about a public transportation vehicle, the control unit is further configured to determine that the state of the mobile device does not correspond to the user of the mobile device Drive the state of the vehicle. 一種控制行動裝置的方法，該方法包括： 從載具接收載具資訊； 決定是否所接收的該載具資訊對應到預先暫存的載具; 若所接收的該載具資訊對應該預先暫存的載具，判定該行動裝置的使用者正在駕駛該載具; 以及 基於該被判定的狀態，控制該行動裝置操作在執行該行動裝置的預設功能的第一模式中或者在不執行該預設功能的第二模式中。A method of controlling a mobile device, the method comprising: receiving vehicle information from a vehicle; determining whether the received vehicle information corresponds to a pre-staged vehicle; and if the received vehicle information is correspondingly pre-staged Vehicle, determining that the user of the mobile device is driving the vehicle; and controlling the mobile device to operate in a first mode of performing a preset function of the mobile device or not performing the pre-operation based on the determined state Set the second mode of the function. 一種行動裝置，經配置以控制一可穿戴裝置，該行動裝置包括： 一通信單元，經配置以從一載具之一端接收一載具資訊；以及 一控制單元，經配置以基於預先暫存在該行動裝置的載具資訊，判定一使用者是否正在駕駛該載具，且根據駕駛狀態經由該通信單元將一控制命令提供至該可穿戴裝置，其中該控制命令用於執行該可穿戴裝置的至少一個功能。A mobile device configured to control a wearable device, the mobile device comprising: a communication unit configured to receive a vehicle information from one end of a carrier; and a control unit configured to pre-exist based on the pre-existing Vehicle information of the mobile device, determining whether a user is driving the vehicle, and providing a control command to the wearable device via the communication unit according to a driving state, wherein the control command is used to execute at least the wearable device A feature. 如申請專利範圍第12項所述的行動裝置，其中該控制單元經進一步配置以判定該可穿戴裝置執行該至少一個功能的條件，以及將該控制命令以及關於該條件的資訊提供至該可穿戴裝置，且 其中該條件是關於該使用者的駕駛狀態。The mobile device of claim 12, wherein the control unit is further configured to determine a condition for the wearable device to perform the at least one function, and provide the control command and information about the condition to the wearable Device, and wherein the condition is related to the driving state of the user. 一種控制可穿戴裝置的方法，該方法由一行動裝置執行且包括： 自一載具之一端接收載具資訊； 基於預先暫存在該行動裝置的載具資訊，判定一使用者是否正在駕駛該載具；以及 根據駕駛狀態將一控制命令提供至該可穿戴裝置，其中該控制命令是用於執行該可穿戴裝置的至少一個功能。A method of controlling a wearable device, the method being performed by a mobile device and comprising: receiving vehicle information from one end of a vehicle; determining whether a user is driving the vehicle based on vehicle information pre-existing in the mobile device And providing a control command to the wearable device according to a driving state, wherein the control command is to perform at least one function of the wearable device.