TWM610921U

TWM610921U - Smart waistline device

Info

Publication number: TWM610921U
Application number: TW109216926U
Authority: TW
Inventors: 林松聯; 彭聖偉
Original assignee: 先進醫照股份有限公司
Priority date: 2020-12-22
Filing date: 2020-12-22
Publication date: 2021-04-21

Abstract

一種智慧腰圍裝置，其係包含有腰帶本體、腰圍感測單元、通訊單元、以及分析單元。首先，腰帶本體環繞於使用者之軀幹，以量測使用者之腰圍；隨後，藉由腰圍感測單元持續感測使用者之腰圍，並且持續產生複數腰圍資訊；之後，藉由通訊單元將該等腰圍資訊發送至該分析單元；最後，分析單元係根據該腰圍資訊進行分析，建立該分析模型；其中，分析模型包含有腰圍軌跡模型，腰圍軌跡係根據腰圍感測單元持續產生的腰圍資訊所形成。藉此，準確分析使用者之腰圍變化，產生腰圍軌跡模型以監測使用者之血糖及血脂等。此外，分析單元可以進一步針對分析模型進行分類、統計、歸納之資料大數據分析以進行疾病風險評估。A smart waist device includes a waist belt body, a waist sensing unit, a communication unit, and an analysis unit. First, the waistband body surrounds the torso of the user to measure the waist circumference of the user; then, the waist circumference of the user is continuously sensed by the waist circumference sensing unit, and multiple waist circumference information is continuously generated; then, the communication unit is used to measure the waist circumference of the user. The isosceles information is sent to the analysis unit; finally, the analysis unit analyzes the waist information to establish the analysis model; the analysis model includes a waist trajectory model, which is based on the waist information continuously generated by the waist sensor unit. form. In this way, the user's waist circumference change is accurately analyzed, and a waist circumference trajectory model is generated to monitor the user's blood sugar and blood lipids. In addition, the analysis unit can further perform classification, statistics, and generalized data big data analysis for the analysis model for disease risk assessment.

Description

智慧腰圍裝置Smart waist device

本創作係關於一種智慧腰圍裝置，特別係關於一種具有人工智慧的智慧腰圍裝置。This creation is about a smart waist device, especially a smart waist device with artificial intelligence.

近年來，全世界糖尿病患的人數持續在增加當中，從1985年的三千萬人增加至1998年的一億四千三百萬人，根據世界衛生組織2016年11月的報告中估計2025年全球的糖尿病人數將達到三億之多，因此如何預防糖尿病的發生以及如何追蹤糖尿病患後續的治療已成為刻不容緩之事，其中，均衡的健康飲食是預防糖尿病及糖尿病患控制血糖的基石。In recent years, the number of people with diabetes worldwide has continued to increase, from 30 million in 1985 to 143 million in 1998. According to the World Health Organization report in November 2016, it is estimated that 2025 The number of people with diabetes worldwide will reach 300 million. Therefore, how to prevent the occurrence of diabetes and how to track the follow-up treatment of diabetic patients has become an urgent matter. Among them, a balanced and healthy diet is the cornerstone of preventing diabetes and controlling blood sugar of diabetic patients.

然而，根據世界衛生組織的報告顯示，6成以上的糖尿病患沒有進行體重相關的控制，根據臨床之觀察，約有80%的糖尿病患都與肥胖有關，然而糖尿病患的其中一個病徵是體重下降，造成許多人因體重下降而忽略自身的肥胖所導致的糖尿病問題，從而造成延誤就醫或人身安全之風險，因此減少罹患糖尿病的風險不應只專注於體重的控管，腰圍的控制更為重要。並且，腰腹部更是腎臟、肝臟、胰腺等重要器官處於人體上的重要區域，當過多的脂肪儲存於腰腹部時，可能造成破壞胰臟系統，並加大高血壓、血脂異常、脂肪肝等疾病的患病風險。However, according to a report from the World Health Organization, more than 60% of diabetic patients have not undergone weight-related control. According to clinical observations, about 80% of diabetic patients are related to obesity. However, one of the symptoms of diabetic patients is weight loss , Causing many people to neglect their own obesity due to diabetes caused by weight loss, resulting in the risk of delay in seeking medical treatment or personal safety. Therefore, reducing the risk of diabetes should not only focus on weight control, but waist circumference control is more important . In addition, the waist and abdomen are important areas where the kidneys, liver, pancreas and other important organs are located on the human body. When too much fat is stored in the waist and abdomen, it may damage the pancreas system and increase high blood pressure, dyslipidemia, fatty liver, etc. The risk of disease.

此外，由於糖尿病患經常同時患有肥胖症，也因此更容易發生高血脂的情形，主要原因是糖尿病患一般分解脂肪的脂解酶活性將大幅降低，同時肝臟合成與釋出三酸甘油脂的能力增加，導致糖尿病患容易發生高血脂的情形，因此糖尿病患之追蹤必須同時確認血液中的葡萄糖、三酸甘油脂、膽固醇、脂蛋白等濃度，然而目前市面上並無同時追蹤血液中的葡萄糖、三酸甘油脂、膽固醇、脂蛋白等濃度之產品。In addition, because diabetic patients often suffer from obesity at the same time, they are more likely to develop hyperlipidemia. The main reason is that diabetic patients generally reduce the activity of lipolytic enzymes that break down fat, and the liver synthesizes and releases triglycerides. Increased ability makes diabetes patients prone to hyperlipidemia. Therefore, the tracking of diabetes patients must also confirm the concentration of glucose, triglycerides, cholesterol, lipoproteins, etc. in the blood. However, there is currently no simultaneous tracking of glucose in the blood on the market. , Triglycerides, cholesterol, lipoproteins and other concentration products.

有鑑於上述缺點，創作人乃針對該等缺點研究改進之道，終於有本創作產生。In view of the above shortcomings, the creators researched and improved ways to address these shortcomings, and finally got the original creation.

本創作之主要目的在於提供一種智慧腰圍裝置，其係應用於糖尿病患者之追蹤，該智慧腰圍裝置係藉由一腰圍感測單元感測使用者之腰圍，並藉由分析單元根據腰圍資訊進行分析，以建立分析模型，其中分析模型包含有腰圍軌跡模型，腰圍軌跡係根據腰圍資訊所形成。藉此，準確分析使用者之腰圍變化產生腰圍軌跡模型，達成監測使用者之血糖、血脂及運動強度等之目的。The main purpose of this creation is to provide a smart waist device, which is applied to the tracking of diabetic patients. The smart waist device senses the user's waist by a waist sensor unit, and analyzes the waist information by the analysis unit , To establish an analysis model, where the analysis model includes a waist trajectory model, and the waist trajectory is formed according to the waist information. In this way, the waist circumference trajectory model is generated by accurately analyzing the waist circumference changes of the user, so as to achieve the purpose of monitoring the user's blood glucose, blood lipids, and exercise intensity.

本創作之另一目的在於提供一種智慧腰圍裝置，其係藉由一人工智慧單元，針對該等分析模型進行學習及理解並建立疾病風險評估模型，疾病風險評估模型可以作為本領域具有通常知識者，例如：醫師、營養師丶教練丶個管師及指導員等，用於介入使用者的生活型態之依據。藉此，本創作提供一種潛在的低成本實施方案，將疾病風險評估模型之應用擴展至家庭保健和行動醫療產品之應用。Another purpose of this creation is to provide a smart waist device, which uses an artificial intelligence unit to learn and understand these analysis models and establish a disease risk assessment model. The disease risk assessment model can be used by those with general knowledge in the field. , Such as physicians, nutritionists, coaches, personal supervisors and instructors, etc., used to intervene in the basis of the user’s lifestyle. In this way, this creation provides a potential low-cost implementation plan to extend the application of the disease risk assessment model to the application of home health care and mobile medical products.

本創作之又一目的在於提供一種智慧腰圍裝置，其係藉由外部裝置，將分析該等腰圍資訊所建立之該等分析模型，例如：於時間區間的腰圍變化差異等，提供給本領域中具有通常知識者，通常知識者可以根據該等分析模型提供至少一改善建議，以致改變使用者之生活型態，並且根據該改善建議查找符合該改善建議之複數醫療保健商品資訊，並透過該外部裝置將該等醫療保健商品資訊推薦給使用者。藉此，本創作提供一種更符合使用者需求之商業模式，提供使用者更精確且更專業的醫療商品推薦。Another purpose of this creation is to provide a smart waist device, which uses an external device to analyze the analysis models established by analyzing the waist information, such as the waist change difference in the time interval, etc., to provide the field in the art Those with general knowledge can provide at least one improvement suggestion based on the analysis models, so as to change the user’s life style, and according to the improvement suggestion, find the plural medical care product information that meets the improvement suggestion, and use the external The device recommends the medical and healthcare product information to the user. In this way, this creation provides a business model that is more in line with the needs of users, and provides users with more accurate and professional medical product recommendations.

為達成上述目的及功效，本創作提供一種智慧腰圍裝置，其係應用於糖尿病患之追蹤，該智慧腰圍裝置係包含有：一腰帶本體，其係呈類圓環狀，該腰帶本體係環繞於使用者之軀幹，以量測使用者之腰圍；一腰圍感測單元，其係設置於該腰帶本體上，該腰圍感測單元係持續感測使用者之腰圍，並且持續產生複數腰圍資訊；一通訊單元，其係與耦接於該腰圍感測單元，該通訊單元用於發送該等腰圍資訊；其中，該腰圍感測單元係包含有複數絕緣層以及複數導電層，該等絕緣層以及該等導電層設置於該腰圍感測單元的內部，又該等絕緣層以及該等導電層交互排列以產生一初始電容值，並且該等絕緣層以及該等導電層因該腰帶本體之變化產生相對位移，藉此產生複數電容值從而持續產生該等腰圍資訊，並且透過該等腰圍資訊形成一腰圍軌跡模型。In order to achieve the above objectives and effects, this creation provides a smart waist device, which is used in the tracking of diabetic patients. The smart waist device includes: a waist belt body, which is in a ring-like shape, and the waist belt system surrounds The torso of the user is used to measure the waist circumference of the user; a waist circumference sensing unit is arranged on the waist belt body, and the waist circumference sensing unit continuously senses the waist circumference of the user and continuously generates plural waist circumference information; The communication unit is coupled to the waistline sensing unit, and the communication unit is used to send the waistline information; wherein, the waistline sensing unit includes a plurality of insulating layers and a plurality of conductive layers, the insulating layers and the And other conductive layers are arranged inside the waistband sensing unit, and the insulating layers and the conductive layers are alternately arranged to generate an initial capacitance value, and the insulating layers and the conductive layers are relative to each other due to changes in the waistband body. Displacement, thereby generating complex capacitance values to continuously generate the waist circumference information, and form a waist circumference trajectory model through the waist circumference information.

較佳地，根據本創作之智慧腰圍裝置，其中，該腰圍感測單元係進一步包含一資訊採集單元，該資訊採集單元係耦接於該等絕緣層以及該等導電層，又該資訊採集單元係用於感測該初始電容值及該等電容值，以產生該等腰圍資訊。Preferably, in the smart waist device created according to the present invention, the waist sensing unit further includes an information collecting unit, the information collecting unit is coupled to the insulating layers and the conductive layers, and the information collecting unit It is used to sense the initial capacitance value and the capacitance values to generate the waist circumference information.

較佳地，根據本創作之智慧腰圍裝置，其中，該智慧腰圍裝置進一步包含一分析單元，其係與該通訊單元資訊連接，該分析單元係接收該通訊單元所發送的該等腰圍資訊，該分析單元係分析該等腰圍資訊以建立至少一分析模型並將該分析模型傳輸至一外部裝置。Preferably, according to the smart waist device created in the present invention, the smart waist device further includes an analysis unit connected to the communication unit information, the analysis unit receives the waist information sent by the communication unit, the The analysis unit analyzes the waist information to establish at least one analysis model and transmits the analysis model to an external device.

較佳地，根據本創作之智慧腰圍裝置，其中，該外部裝置係進一步包含有：一提醒單元，其係與該分析單元資訊連接；一顯示單元，其係與該分析單元資訊連接，該顯示單元係用於展示該分析模型。Preferably, according to the smart waist device created by the present invention, the external device further includes: a reminder unit connected to the analysis unit information; a display unit connected to the analysis unit information, the display The unit system is used to display the analysis model.

較佳地，根據本創作之智慧腰圍裝置，其中，該顯示單元可以為有機發光二極體顯示器(OLED)、發光二極體顯示器(LED)、及量子點顯示器(QLED)其中之一，然而本創作不限於此。Preferably, according to the smart waist device of the present creation, the display unit may be one of an organic light emitting diode display (OLED), a light emitting diode display (LED), and a quantum dot display (QLED). This creation is not limited to this.

較佳地，根據本創作之智慧腰圍裝置，其中，該分析單元係建置於雲端伺服器，然而本創作不限於此。Preferably, according to the smart waist device created in this invention, the analysis unit is built in a cloud server, but the creation is not limited to this.

較佳地，根據本創作之智慧腰圍裝置，其中，該分析單元係分析該等腰圍資訊以建立複數分析模型，該等分析模型係包含有一胰島素敏感指數模型、一血糖控制模型、一血脂模型、一睡眠模型、一消化狀況模型、一活動量狀況模型、一脂肪肝模型丶一大腸直腸息肉模型、及一癌症模型其中之一或其組合，然而本創作不限於此。Preferably, according to the smart waist device created in the present invention, the analysis unit analyzes the waist information to establish a complex analysis model, and the analysis models include an insulin sensitivity index model, a blood sugar control model, a blood lipid model, One or a combination of a sleep model, a digestive status model, an activity status model, a fatty liver model, a colorectal polyp model, and a cancer model, but the creation is not limited to this.

較佳地，根據本創作之智慧腰圍裝置，其中，該分析單元進一步包含一儲存單元，其係資訊連接該通訊單元，該儲存單元係用於儲存該分析模型。Preferably, in the smart waist device created according to the present invention, the analysis unit further includes a storage unit connected to the communication unit for information, and the storage unit is used to store the analysis model.

較佳地，根據本創作之慧腰動帶，其中，該分析單元係進一步包含一人工智慧單元，其係耦接於該儲存單元，該人工智慧單元係針對該等分析模型進行學習及理解並建立一疾病風險評估模型，以供使用者參考。Preferably, according to the smart belt of the present creation, the analysis unit further includes an artificial intelligence unit coupled to the storage unit, and the artificial intelligence unit learns and understands the analysis models and Establish a disease risk assessment model for users' reference.

較佳地，根據本創作之慧腰動帶，其中，該疾病風險評估模型係由該人工智慧單元針對該等分析模型，以對其進行分類、統計、歸納之資料大數據分析以產生之。Preferably, according to the smart belt of the present creation, the disease risk assessment model is generated by the artificial intelligence unit on the analysis models to classify, count, and summarize the data big data analysis.

綜上，本創作所提供之智慧腰圍裝置，具有準確分析使用者之腰圍變化產生腰圍軌跡模型，達成監測使用者之血糖及血脂等之功效，同時提供一種潛在的低成本實施方案，將疾病風險評估模型之應用擴展至家庭保健和行動醫療產品之應用。In summary, the smart waist device provided by this creation can accurately analyze the user’s waist circumference changes to generate a waist trajectory model, achieve the effect of monitoring the user’s blood sugar and blood lipids, and provide a potential low-cost implementation solution to reduce the risk of disease The application of the evaluation model is extended to the application of home health care and mobile medical products.

爲使熟悉該項技藝人士瞭解本創作之目的、特徵及功效，茲藉由下述具體實施例，並配合所附之圖式，對本創作詳加說明如下。In order to enable those familiar with the art to understand the purpose, features and effects of this creation, the following specific examples are used in conjunction with the accompanying drawings to explain this creation in detail as follows.

現在將參照其中示出本創作概念的示例性實施例的附圖在下文中更充分地闡述本創作概念。以下藉由參照附圖更詳細地闡述的示例性實施例，本創作概念的優點及特徵以及其達成方法將顯而易見。然而，應注意，本創作概念並非僅限於以下示例性實施例，而是可實施為各種形式。因此，提供示例性實施例僅是為了揭露本創作概念並使熟習此項技術者瞭解本創作概念的類別。在圖式中，本創作概念的示例性實施例並非僅限於本文所提供的特定實例且為清晰起見而進行誇大。The present creative concept will now be explained more fully hereinafter with reference to the accompanying drawings in which an exemplary embodiment of the present creative concept is shown. Hereinafter, the advantages and features of the creative concept and the methods for achieving them will be apparent by the exemplary embodiments described in more detail with reference to the accompanying drawings. However, it should be noted that the present creative concept is not limited to the following exemplary embodiments, but can be implemented in various forms. Therefore, the exemplary embodiments are provided only to expose the creative concept and enable those familiar with the art to understand the category of the creative concept. In the drawings, the exemplary embodiments of the creative concept are not limited to the specific examples provided herein and are exaggerated for clarity.

本文所用術語僅用於闡述特定實施例，而並非旨在限制本創作。除非上下文中清楚地另外指明，否則本文所用的單數形式的用語「一」及「該」旨在亦包括複數形式。本文所用的用語「及/或」包括相關所列項其中一或多者的任意及所有組合。應理解，當稱元件「連接」或「耦合」至另一元件時，所述元件可直接連接或耦合至所述另一元件或可存在中間元件。The terms used herein are only used to illustrate specific embodiments, and are not intended to limit the creation. Unless the context clearly indicates otherwise, the singular terms "a" and "the" used herein are intended to also include the plural. The term "and/or" as used herein includes any and all combinations of one or more of the related listed items. It should be understood that when an element is referred to as being “connected” or “coupled” to another element, the element may be directly connected or coupled to the other element or intervening elements may be present.

相似地，應理解，當稱一個元件(例如層、區或基板)位於另一元件「上」時，所述元件可直接位於所述另一元件上，或可存在中間元件。相比之下，用語「直接」意指不存在中間元件。更應理解，當在本文中使用用語「包括」、「包含」時，是表明所陳述的特徵、整數、操作、元件、及/或組件的存在，但不排除一或多個其他特徵、整數、操作、元件、組件、及/或其群組的存在或添加。Similarly, it should be understood that when an element (such as a layer, region, or substrate) is referred to as being "on" another element, the element can be directly on the other element, or intervening elements may be present. In contrast, the term "directly" means that there are no intermediate components. It should be understood that when the terms "include" and "include" are used in this text, it means that the stated features, integers, operations, elements, and/or components exist, but do not exclude one or more other features, integers The existence or addition of, operations, elements, components, and/or groups thereof.

此外，將藉由作為本創作概念的理想化示例性圖的剖視圖來闡述詳細說明中的示例性實施例。相應地，可根據製造技術及/或可容許的誤差來修改示例性圖的形狀。因此，本創作概念的示例性實施例並非僅限於示例性圖中所示出的特定形狀，而是可包括可根據製造製程而產生的其他形狀。圖式中所例示的區域具有一般特性，且用於說明元件的特定形狀。因此，此不應被視為僅限於本創作概念的範圍。In addition, the exemplary embodiment in the detailed description will be explained with a cross-sectional view as an idealized exemplary diagram of the present creative concept. Accordingly, the shape of the exemplary figure can be modified according to manufacturing technology and/or allowable errors. Therefore, the exemplary embodiments of the creative concept are not limited to the specific shapes shown in the exemplary figures, but may include other shapes that can be produced according to the manufacturing process. The regions illustrated in the drawings have general characteristics and are used to illustrate the specific shape of the element. Therefore, this should not be regarded as limited to the scope of this creative concept.

亦應理解，儘管本文中可能使用用語「第一」、「第二」、「第三」等來闡述各種元件，然而該些元件不應受限於該些用語。該些用語僅用於區分各個元件。因此，某些實施例中的第一元件可在其他實施例中被稱為第二元件，而此並不背離本創作的教示內容。本文中所闡釋及說明的本創作概念的態樣的示例性實施例包括其互補對應物。本說明書通篇中，相同的參考編號或相同的指示物表示相同的元件。It should also be understood that although the terms “first”, “second”, “third”, etc. may be used herein to describe various elements, these elements should not be limited to these terms. These terms are only used to distinguish each element. Therefore, the first element in some embodiments may be referred to as the second element in other embodiments, and this does not deviate from the teaching content of this creation. The exemplary embodiments of the aspect of the creative concept illustrated and described herein include their complementary counterparts. Throughout this specification, the same reference number or the same indicator represents the same element.

此外，本文中參照剖視圖及/或平面圖來闡述示例性實施例，其中所述剖視圖及/或平面圖是理想化示例性說明圖。因此，預期存在由例如製造技術及/或容差所造成的相對於圖示形狀的偏離。因此，示例性實施例不應被視作僅限於本文中所示區的形狀，而是欲包括由例如製造所導致的形狀偏差。因此，圖中所示的區為示意性的，且其形狀並非旨在說明裝置的區的實際形狀、亦並非旨在限制示例性實施例的範圍。In addition, the exemplary embodiments are described herein with reference to cross-sectional views and/or plan views, where the cross-sectional views and/or plan views are idealized exemplary illustrations. Therefore, it is expected that there is a deviation from the illustrated shape due to, for example, manufacturing technology and/or tolerances. Therefore, the exemplary embodiments should not be viewed as being limited to the shapes of the regions shown herein, but are intended to include shape deviations caused by, for example, manufacturing. Therefore, the regions shown in the figures are schematic, and their shapes are not intended to illustrate the actual shape of the regions of the device, nor to limit the scope of the exemplary embodiments.

請參閱圖1至圖3所示，圖1為根據本創作之智慧腰圍裝置的系統示意圖；圖2為根據本創作之智慧腰圍裝置的架構示意圖。如圖1所示，根據本創作之智慧腰圍裝置100包括：腰帶本體11、腰圍感測單元12、通訊單元13及分析單元14。Please refer to Figs. 1 to 3. Fig. 1 is a schematic diagram of the system of the smart waist device created according to the present invention; Fig. 2 is a schematic diagram of the structure of the smart waist device created according to the present invention. As shown in FIG. 1, the smart waistline device 100 according to the present creation includes: a waistband body 11, a waistline sensing unit 12, a communication unit 13 and an analysis unit 14.

具體地，請參閱圖2，該腰帶本體11，其係呈類圓環狀，腰帶本體11係環繞於使用者200之軀幹靠近腰圍處，以量測使用者200之腰圍，然而本創作不限於此。Specifically, please refer to FIG. 2, the waist belt body 11 is shaped like a circular ring. The waist belt body 11 surrounds the torso of the user 200 near the waist circumference to measure the waist circumference of the user 200. However, this creation is not limited to this.

具體地，該腰圍感測單元12，其係設置於該腰帶本體11上，腰圍感測單元21係感測使用者之腰圍，並且產生複數腰圍資訊21。需要進一步說明的是，該腰圍感測單元12感測使用者之腰圍的方式可以是例如：光學式、電容式或者機械式其中之一。其中，光學式是透過光學影像，判斷腰帶本體11隨使用者之軀幹的變化進而產生腰圍資訊21；電容式是透過複數絕緣層與複數導電層交互排列產生電容值，並透過腰帶本體11隨使用者之軀幹的變化所產生的電容值改變，進而產生腰圍資訊21；機械式是透過腰帶本體11兩端的相對位移，判斷腰帶本體11隨使用者之軀幹的變化進而產生腰圍資訊21，然而本創作不限於此。Specifically, the waist circumference sensing unit 12 is disposed on the waist belt body 11, and the waist circumference sensing unit 21 senses the waist circumference of the user and generates plural waist circumference information 21. It should be further explained that the waist circumference sensing unit 12 can sense the waist circumference of the user in one of, for example, optical type, capacitive type or mechanical type. Among them, the optical type uses an optical image to determine the waistband body 11 to change with the user’s torso to generate waist information 21; the capacitive type uses a plurality of insulating layers and a plurality of conductive layers to alternately arrange the capacitance value, and use the waistband body 11 as needed The change in the capacitance value caused by the change of the person’s torso generates waist information 21; mechanically, through the relative displacement of the two ends of the waist belt body 11, it is determined that the waist belt body 11 changes with the user’s torso to generate waist information 21. However, this creation Not limited to this.

具體地，該通訊單元13其係與耦接於腰圍感測單元12，通訊單元13用於發送該等腰圍資訊21。需要進一步說明的是，根據本創作之通訊單元13係為無線訊號的資訊傳輸，其係選自無線射頻電路(RFID)、或近距離無線通訊技術（Near Field Communication，NFC）、藍芽(Bluetooth)、第三代行動通訊(3G)、***行動通訊(4G)、無線局域網路(Wi-Fi)、無線局域網路(WLAN)、第五代行動通訊(5G)之無線通訊協定的其中之一；又，該通訊單元13係為有線訊號的資訊傳輸，其係為乙太網路（Ethernet），通訊單元13可以用於發送該等腰圍資訊21至分析單元14，或通訊單元13可以用於與外部裝置(圖未示)進行資訊通訊，例如：個人電腦、智慧型手機或平板電腦等，然而本創作不限於此。Specifically, the communication unit 13 is coupled to the waist circumference sensing unit 12, and the communication unit 13 is used to send the waist circumference information 21. It should be further explained that the communication unit 13 according to this creation is the information transmission of wireless signals, which is selected from radio frequency circuits (RFID), or near field communication (NFC), Bluetooth (Bluetooth) ), third-generation mobile communications (3G), fourth-generation mobile communications (4G), wireless local area network (Wi-Fi), wireless local area network (WLAN), and fifth-generation mobile communications (5G) wireless communication protocols One; In addition, the communication unit 13 is a wired signal information transmission, which is an Ethernet (Ethernet), the communication unit 13 can be used to send the waist information 21 to the analysis unit 14, or the communication unit 13 can It is used for information communication with external devices (not shown), such as personal computers, smart phones or tablets, etc. However, this creation is not limited to this.

值得一提的是，外部裝置可以透過通訊單元13，與腰圍感測單元12以及分析單元14進行通訊，以達成藉由外部裝置對根據本創作之智慧腰圍裝置100的設定進行調整，此外，如果可以透過其他方式調整根據本創作之智慧腰圍裝置100的設定，並通過其他方式以輸出腰圍感測單元12所感測的該等腰圍資訊21，通訊單元13也可以是任意輸出該等腰圍資訊21之設置，然而為了盡可能的縮小根據本創作之智慧腰圍裝置100的尺寸，根據本創作較佳地實施例係透過通訊單元13來與外部裝置進行通訊，然而本創作不限於此。It is worth mentioning that an external device can communicate with the waist sensing unit 12 and the analyzing unit 14 through the communication unit 13, so as to achieve the adjustment of the settings of the smart waist device 100 according to this creation through the external device. In addition, if The settings of the smart waist device 100 created according to the present invention can be adjusted in other ways, and the waist information 21 sensed by the waist sensing unit 12 can be output in other ways. The communication unit 13 can also output the waist information 21 at will. However, in order to reduce the size of the smart waist device 100 according to the present creation as much as possible, the preferred embodiment of the present creation communicates with the external device through the communication unit 13, but the present creation is not limited to this.

請參閱圖3所示，圖3為說明根據本創作的智慧腰圍裝置分所建立之腰圍軌跡模型示意圖。該分析單元14，其係與通訊單元13資訊連接，該分析單元14係接收通訊單元13所發送的該等腰圍資訊21，分析單元14係用於分析該等腰圍資訊21以建立分析模型22，並且將該分析模型22藉由通訊單元13傳輸至外部裝置。其中，該分析單元14所建立之分析模型22，其係包含有腰圍軌跡模型221，如圖3所示，腰圍軌跡模型221係根據該等腰圍資訊21所形成，在本創作中，腰圍軌跡模型221係包含有使用者每月的腰圍資訊21，並以年作為記錄之單位，然而本創作不限於此，腰圍軌跡模型221亦可以包含使用者每日的腰圍資訊21，並以月作為記錄之單位，如此一來可以更為精準的掌握使用者的腰圍變化，但同時亦會造成腰圍軌跡模型221所記錄的資訊較為龐大而占用較多的記憶體空間，使用者可以視其需求選擇何種方式較為適切，在此僅為釋例性說明，本創作不應被解釋為僅限於此。Please refer to FIG. 3, which is a schematic diagram illustrating the waist trajectory model established by the smart waist device created according to the present invention. The analysis unit 14 is connected to the communication unit 13, and the analysis unit 14 receives the waist information 21 sent by the communication unit 13, and the analysis unit 14 analyzes the waist information 21 to establish an analysis model 22, And the analysis model 22 is transmitted to the external device through the communication unit 13. Among them, the analysis model 22 established by the analysis unit 14 includes a waist trajectory model 221. As shown in FIG. 3, the waist trajectory model 221 is formed based on the waist information 21. In this creation, the waist trajectory model The 221 system contains the user’s monthly waist information 21, and uses the year as the unit of record. However, this creation is not limited to this. The waist trajectory model 221 can also include the user’s daily waist information 21, and the month is used as the record. In this way, the user’s waist circumference change can be grasped more accurately, but at the same time, the information recorded by the waist trajectory model 221 will be larger and occupy more memory space. The user can choose which one according to their needs. The method is more appropriate, and this is only an illustrative description, and this creation should not be construed as being limited to this.

請參閱圖4所示，圖4為說明根據本創作之智慧腰圍裝置所量測的腰圍資訊與胰島素敏感指數之間的關係圖。如圖4所示，根據本創作之智慧腰圍裝置100所產生的該等腰圍資訊21係與胰島素敏感指數相關，因此根據本創作之分析單元14係可以藉由該等腰圍資訊21產生腰圍軌跡模型221，同時藉由腰圍資訊21產生胰島素敏感指數模型222。需要進一步說明的是，儘管目前胰島素阻抗形成的真正原因仍未確定，在醫學臨床上仍堅信個體活動力減少及能量的堆積是胰島素阻抗發生的重要因素，因此根據本創作之智慧腰圍裝置100係可以進一步根據分析單元14腰圍資訊21所產生的胰島素敏感指數模型222，提醒使用者進行適當的活動或運動，以減少胰島素阻抗形成的情形，然而本創作不限於此。Please refer to FIG. 4. FIG. 4 is a diagram illustrating the relationship between the waist circumference information measured by the smart waist device created according to the present invention and the insulin sensitivity index. As shown in FIG. 4, the waist information 21 generated by the smart waist device 100 according to the present creation is related to the insulin sensitivity index. Therefore, the analysis unit 14 according to the present creation can generate a waist trajectory model from the waist information 21 221. At the same time, an insulin sensitivity index model 222 is generated based on the waist circumference information 21. It needs to be further explained that although the real cause of insulin resistance has not yet been determined, it is still believed in clinical medicine that the reduction of individual activity and the accumulation of energy are important factors for the occurrence of insulin resistance. Therefore, the smart waist device 100 series according to this creation The insulin sensitivity index model 222 generated by the analysis unit 14 waist circumference information 21 can be further used to remind the user to perform appropriate activities or exercises to reduce the formation of insulin resistance, but the present creation is not limited to this.

請參閱圖5A至圖6所示，圖5A為說明根據本創作之智慧腰圍裝置所量測的腰圍資訊與血液中的葡萄糖之間的關係圖；圖5B為說明根據本創作之智慧腰圍裝置所量測的腰圍資訊與血液中的三酸甘油脂之間的關係圖；圖5C為說明根據本創作之智慧腰圍裝置所量測的腰圍資訊與血液中的膽固醇之間的關係圖；圖5D為說明根據本創作之智慧腰圍裝置所量測的腰圍資訊與血液中的脂蛋白之間的關係圖。根據本創作之智慧腰圍裝置100所產生的該等腰圍資訊21係與血液中的葡萄糖、三酸甘油脂、膽固醇及脂蛋白呈正相關。一般而言，糖尿病患者同時造成高血脂的原因較為複雜，然而最常見的型式包括以下幾種：血液中的三酸甘油脂上昇，高密度脂蛋白膽固醇(HDL-C)下降以及低密度脂蛋白膽固醇(LDL-C)增加。因此根據本創作之分析單元14係可以藉由該等腰圍資訊21產生腰圍軌跡模型221，同時分析單元14係藉由該等腰圍資訊21產生血糖控制模型223、三酸甘油脂模型224、膽固醇模型225、以及脂蛋白模型226其中之一或其組合。如此一來，根據本創作之智慧腰圍裝置100係藉由監測葡萄糖、三酸甘油脂、膽固醇及脂蛋白等資訊，以防止及監控糖尿病患同時造成高血脂的情形。Please refer to Figures 5A to 6, Figure 5A is a diagram illustrating the relationship between the waist information measured by the smart waist device according to this creation and the glucose in the blood; Figure 5B is a diagram illustrating the relationship between the smart waist device based on this creation The relationship between measured waist information and blood triglycerides; Figure 5C is a diagram illustrating the relationship between waist information measured by the smart waist device created by this invention and blood cholesterol; Figure 5D is Illustrate the relationship between the waist information measured by the smart waist device created by this invention and the lipoprotein in the blood. The waist information 21 generated by the smart waist device 100 according to the present invention is positively correlated with glucose, triglycerides, cholesterol, and lipoproteins in the blood. Generally speaking, the causes of hyperlipidemia in diabetic patients at the same time are more complicated, but the most common types include the following: increased triglycerides in the blood, decreased high-density lipoprotein cholesterol (HDL-C), and low-density lipoprotein Cholesterol (LDL-C) increases. Therefore, according to the analysis unit 14 of the present creation, the waist circumference trajectory model 221 can be generated by the waist circumference information 21, and the analysis unit 14 can generate the blood glucose control model 223, the triglyceride model 224, and the cholesterol model by the waist circumference information 21. One of 225, and lipoprotein model 226, or a combination thereof. In this way, the smart waist device 100 according to the present invention monitors information such as glucose, triglycerides, cholesterol, and lipoproteins to prevent and monitor diabetes patients from causing hyperlipidemia at the same time.

需要進一步說明的是，本發明之分析模型22可以包含有各式血脂模型(圖未示)，該等血脂模型不限於上述的三酸甘油脂模型224、膽固醇模型225、以及脂蛋白模型226，此外，根據本發明之分析模型22還可以是例如：脂肪肝模型丶大腸直腸息肉模型、及癌症模型等，然而本發明不限於此，本領域中具有通常知識者可以根據上述示例進行各種變化及應用，在此不再一一列舉。It should be further explained that the analysis model 22 of the present invention may include various blood lipid models (not shown in the figure), and these blood lipid models are not limited to the above-mentioned triglyceride model 224, cholesterol model 225, and lipoprotein model 226. In addition, the analysis model 22 according to the present invention can also be, for example, a fatty liver model, a colorectal polyp model, and a cancer model. However, the present invention is not limited to this. Those with ordinary knowledge in the art can make various changes based on the above examples. Applications are not listed here.

為供進一步瞭解本創作構造特徵、運用技術手段及所預期達成之功效，茲將本創作實際執行過程加以敘述，相信當可由此而對本創作有更深入且具體瞭解，如下所述：In order to provide a further understanding of the structural features of this creation, the use of technical means and the expected effects, the actual implementation process of this creation is described. I believe that we can have a more in-depth and specific understanding of this creation from this, as described below:

請參閱圖6，並搭配圖2所示，圖6為說明根據本創作之智慧腰圍裝置實際執行過程之流程圖。根據本創作之智慧腰圍裝置100實際執行過程說明如下：首先，藉由呈類圓環狀的該腰帶本體11環繞於使用者之軀幹靠近腰圍處，以量測使用者之腰圍；接著，當腰帶本體11環繞於使用者之軀幹靠近腰圍處時，透過腰圍感測單元12感測使用者之腰圍，並且產生複數腰圍資訊21；之後，當腰圍感測單元12產生該等腰圍資訊21後，根據本創作之智慧腰圍裝置100藉由通訊單元13將該等腰圍資訊21發送至分析單元14，以供分析單元14分析之用；之後，分析單元14係根據該腰圍資訊21進行分析，並結合腰圍資訊與胰島素敏感指數以及血液中的葡萄糖、三酸甘油脂、膽固醇及脂蛋白之間呈正相關，以建立複數分析模型22，該等分析模型22包含有腰圍軌跡模型221、胰島素敏感指數模型222、血糖控制模型223、三酸甘油脂模型224、膽固醇模型225及脂蛋白模型226。Please refer to FIG. 6 in conjunction with FIG. 2. FIG. 6 is a flowchart illustrating the actual execution process of the smart waist device created according to the present invention. The actual execution process of the smart waist device 100 according to this creation is described as follows: First, the waistband body 11, which is in the shape of a circular ring, surrounds the user's torso near the waistline to measure the user's waistline; then, as a waistband When the main body 11 surrounds the user’s torso near the waist, it senses the user’s waist through the waist sensing unit 12 and generates a plurality of waist information 21; then, when the waist sensing unit 12 generates the waist information 21, according to The smart waist device 100 of the present invention sends the isometric information 21 to the analysis unit 14 through the communication unit 13 for analysis by the analysis unit 14; after that, the analysis unit 14 performs analysis based on the waist information 21 and combines it with the waist Information is positively correlated with insulin sensitivity index and blood glucose, triglycerides, cholesterol, and lipoproteins to establish a complex analysis model 22. The analysis models 22 include waist circumference trajectory model 221, insulin sensitivity index model 222, Blood glucose control model 223, triglyceride model 224, cholesterol model 225, and lipoprotein model 226.

藉此，由上述說明可知，根據本創作之智慧腰圍裝置100，其係藉由腰圍感測單元12感測使用者之腰圍，並且藉由分析單元14根據該等腰圍資訊21進行分析，以建立複數分析模型22，減少原先需人為操作的重複性動作，有效降低為達到同樣效果所需付出之人力及時間。另一方面，本創作藉由分析單元14，其係根據腰圍資訊與胰島素敏感指數以及血液中的葡萄糖、三酸甘油脂、膽固醇及脂蛋白之間呈正相關，以建立複數分析模型22，該等分析模型22包含有腰圍軌跡模型221、胰島素敏感指數模型222、血糖控制模型223、三酸甘油脂模型224、膽固醇模型225及脂蛋白模型226，藉此準確分析使用者之腰圍變化產生腰圍軌跡模型，達成監測使用者之血糖及血脂之功效。Therefore, it can be seen from the above description that the smart waist device 100 according to the present invention senses the waist of the user through the waist sensing unit 12, and the analysis unit 14 analyzes the waist information 21 to establish The complex analysis model 22 reduces the repetitive actions that originally required manual operations, and effectively reduces the manpower and time required to achieve the same effect. On the other hand, this creation uses the analysis unit 14 to establish a complex analysis model 22 based on the positive correlation between waist circumference information and insulin sensitivity index and blood glucose, triglycerides, cholesterol and lipoproteins. The analysis model 22 includes a waist circumference trajectory model 221, an insulin sensitivity index model 222, a blood glucose control model 223, a triglyceride model 224, a cholesterol model 225, and a lipoprotein model 226, so as to accurately analyze the user’s waist circumference changes to generate a waist circumference trajectory model , To achieve the effect of monitoring the user's blood sugar and blood lipids.

以下，參照圖式，說明本創作的智慧腰圍裝置的第一實施之實施形態。Hereinafter, with reference to the drawings, the first embodiment of the smart waist device created by this invention will be described.

請參閱圖7至圖10所示，圖7為根據本創作第一實施例之智慧腰圍裝置的系統示意圖。如圖8所示，根據本創作之智慧腰圍裝置100包括：腰帶本體11、腰圍感測單元12、通訊單元13、分析單元14、提醒單元15及顯示單元16。Please refer to FIG. 7 to FIG. 10. FIG. 7 is a system schematic diagram of the smart waist device according to the first embodiment of the present creation. As shown in FIG. 8, the smart waistline device 100 according to the present creation includes: a waistband body 11, a waistline sensing unit 12, a communication unit 13, an analysis unit 14, a reminder unit 15 and a display unit 16.

具體地，根據本創作第一實施例之分析單元14，其係可以進一步包含儲存單元141以及人工智慧單元142，該儲存單元141耦接於該人工智慧單元142，又該儲存單元141係資訊連接該通訊單元13，儲存單元141係用於儲存該分析模型，該人工智慧單元142可以使用監督式機器學習演算法或非監督式機器學習演算法，例如：邏輯回歸模型（Logistic Regression）、生成對抗網絡（Generative Adversarial Network）及聚類分析（Cluster analysis）等，然而本創作不限於此。Specifically, according to the analysis unit 14 of the first embodiment of the present creation, it may further include a storage unit 141 and an artificial intelligence unit 142, the storage unit 141 is coupled to the artificial intelligence unit 142, and the storage unit 141 is connected to information The communication unit 13 and the storage unit 141 are used to store the analysis model. The artificial intelligence unit 142 can use a supervised machine learning algorithm or an unsupervised machine learning algorithm, such as: logistic regression model (Logistic Regression), generating confrontation Network (Generative Adversarial Network) and cluster analysis (Cluster analysis), but this creation is not limited to this.

當該分析單元14根據該等腰圍資訊21產生複數分析模型22後，該等分析模型22係儲存於儲存單元141，並且人工智慧單元142係針對該等分析模型22進行學習及理解並建立疾病風險評估模型27，其中，由該人工智慧單元142針對該等分析模型22，以對其進行分類、統計、歸納之資料大數據分析以產生疾病風險評估模型27，又該疾病風險評估模型27可以作為本領域具有通常知識者例如：醫師、營養師丶教練丶個管師及指導員等，用於介入使用者的生活型態之依據，此外當上述之本領域具有通常知識者介入使用者的生活型態後，根據本創作之人工智慧單元142亦可以產生新的疾病風險評估模型27，作為後續本領域中具有通常知識者用於介入使用者的生活型態之依據。其中，該病風險評估模型24可以包含有相關呼吸睡眠中止風險丶大腸息肉丶大腸癌、脂肪肝等風險指標，然而本創作不限於此。After the analysis unit 14 generates complex analysis models 22 based on the waist information 21, the analysis models 22 are stored in the storage unit 141, and the artificial intelligence unit 142 learns and understands the analysis models 22 and establishes disease risks The evaluation model 27, wherein the artificial intelligence unit 142 targets the analysis models 22 to perform classification, statistics, and generalized data big data analysis to generate a disease risk evaluation model 27, and the disease risk evaluation model 27 can be used as Those with general knowledge in this field, such as physicians, nutritionists, coaches, personal managers, and instructors, are used to intervene in the life style of the user. In addition, when the above-mentioned people with general knowledge in the field intervene in the life style of the user After the situation, the artificial intelligence unit 142 created according to the present invention can also generate a new disease risk assessment model 27, which can be used as a basis for subsequent interventions in the life style of the user with ordinary knowledge in the field. Among them, the disease risk assessment model 24 may include risk indicators related to respiratory and sleep cessation risk, colorectal polyps, colorectal cancer, fatty liver, etc. However, this creation is not limited to this.

此外，請參閱圖8所示，圖8為根據本創作第一實施例之腰圍感測單元的架構示意圖。在本實施例中，該腰圍感測單元12係藉由電容示的結構以感測使用者之腰圍，如圖8所示，該腰圍感測單元12係包含有複數絕緣層124、複數導電層125以及資訊採集單元126，該等絕緣層124以及該等導電層125交互排列以產生初始電容值，並且該等絕緣層以及該等導電層因該腰帶本體11之變化產生電容值發生改變，資訊採集單元126耦接於該等絕緣層124以及導電層125，該資訊採集單元係用於採集該初始電容值及改變後的電容值，以產生該等腰圍資訊21。In addition, please refer to FIG. 8, which is a schematic diagram of the structure of the waist circumference sensing unit according to the first embodiment of the present creation. In this embodiment, the waistline sensing unit 12 senses the waistline of the user through a capacitive display structure. As shown in FIG. 8, the waistline sensing unit 12 includes a plurality of insulating layers 124 and a plurality of conductive layers. 125 and the information collection unit 126, the insulating layers 124 and the conductive layers 125 are alternately arranged to generate initial capacitance values, and the capacitance values of the insulating layers and the conductive layers are changed due to the change of the belt body 11, and the information The collecting unit 126 is coupled to the insulating layers 124 and the conductive layer 125, and the information collecting unit is used to collect the initial capacitance value and the changed capacitance value to generate the waist circumference information 21.

藉此，根據本創作第一實施例之疾病風險評估模型27，除了用於提供使用者參考外，亦能提供本領域中具有通常知識者，例如：醫師、營養師丶教練丶個管師及指導員等，用於介入使用者的生活型態之依據，並同時用於後續糖尿病患之追蹤。此外，藉由簡單的電容示結構以感測使用者之腰圍，就精準度而言，相較於市面上使用光學式或機械式量測腰圍，根據本創作第一實施例之智慧腰圍裝置100更為精準，且由於腰圍感測單元12係藉由電容示結構以感測使用者之腰圍，因此可以進一步藉由該等腰圍資訊21感測使用者的呼吸頻率，藉此追蹤糖尿病患的運動情形以及睡眠情況，更加完整以及準確的進行後續糖尿病患之追蹤，以致達到增加使用上的便利性及實用性等目的。In this way, the disease risk assessment model 27 according to the first embodiment of this creation can not only provide users with reference, but also provide people with general knowledge in the field, such as physicians, nutritionists, coaches, personal managers, and Instructors, etc., are used to intervene in the basis of the user’s lifestyle, and at the same time for the follow-up follow-up of diabetes patients. In addition, with a simple capacitive display structure to sense the waist of the user, in terms of accuracy, compared to the optical or mechanical measurement of the waist on the market, the smart waist device 100 according to the first embodiment of the present invention More accurate, and because the waist circumference sensing unit 12 senses the user’s waist circumference through the capacitive display structure, the user’s breathing rate can be further sensed by the waist circumference information 21, thereby tracking the movement of the diabetic patient The situation and sleep status can be tracked more completely and accurately for follow-up diabetes patients, so as to achieve the purpose of increasing the convenience and practicability of use.

請參閱圖9所示，圖9為說明本創作第一實施例之智慧腰圍裝置的使用示意圖。如圖9所示，根據本創作第一實施例之腰圍感測單元12係包含有複數絕緣層124及複數導電層125，並藉由該等絕緣層124以及該等導電層125交互排列以產生初始電容值，該初始電容值的數值計算方法符合下方公式(1)，在下式中，介電常數ε ₀及靜態介電常數ε _r為定值，使得單位面積A以及間距d與初始電容值相關，而當使用者200呼氣以及吸氣時，腹部產生向外推的力量或者腹部向內移動，造成單位面積之間的間距d變化因而產生複數電容值C，其中電容值C的改變以及間距d之間的關係如下方公式(2)。藉此，當使用者200使用根據本創作第一實施例之智慧腰圍裝置100時，使用者由於呼氣以及吸氣所造成的腰圍變化，也將精準且明確的反應於腰圍資訊21上，從而使本創作第一實施例之智慧腰圍裝置100得根據使用者200的呼吸頻率，追蹤糖尿病患的運動情形以及睡眠情況，更加完整以及準確的進行後續糖尿病患之追蹤。

……..公式(1)

…...公式(2) Please refer to FIG. 9, which is a schematic diagram illustrating the use of the smart waist device according to the first embodiment of the present creation. As shown in FIG. 9, the waist sensing unit 12 according to the first embodiment of the invention includes a plurality of insulating layers 124 and a plurality of conductive layers 125, and the insulating layers 124 and the conductive layers 125 are alternately arranged to produce The initial capacitance value. The numerical calculation method of the initial capacitance value conforms to the following formula (1). In the following formula, the dielectric constant ε ₀ and the static dielectric constant ε _r are fixed values, so that the unit area A and the interval d are the same as the initial capacitance value Related, and when the user 200 exhales and inhales, the abdomen generates force to push outward or the abdomen moves inward, causing the distance d between the unit area to change and thus generating a complex capacitance value C, where the capacitance value C changes as well as The relationship between the spacing d is the following formula (2). In this way, when the user 200 uses the smart waist device 100 according to the first embodiment of the present creation, the user's waist changes caused by exhalation and inhalation will also be accurately and clearly reflected on the waist information 21, thereby The smart waist device 100 of the first embodiment of the present invention can track the movement and sleep conditions of the diabetic patient according to the breathing rate of the user 200, so that the follow-up diabetic patient tracking can be more complete and accurate.

……..Formula 1)

…...Formula (2)

請參閱圖10至圖14所示，圖10為說明本創作第一實施例之智慧腰圍裝置的資訊採集單元所感測的數值示意圖。如圖10所示，每當使用者呼氣以及吸氣時，資訊採集單元126所感測的數值由於單位面積之間的間距d的變化，產生複數電容值而產生明顯的波動，藉此感測腰圍之變化以產生複數腰圍資訊21，使本創作第一實施例之智慧腰圍裝置100得根據使用者的呼吸頻率，並搭配根據本創作第一實施例之分析單元14產生運動強度模型227及睡眠模型228，其中，運動強度模型227係根據使用者的呼氣以及吸氣之間的頻率以判斷使用者進行運動時的運動強度，睡眠模型228係根據使用者的呼氣以及吸氣之間的頻率以判斷使用者是否進入睡眠的狀態，達成準確監測糖尿病患的運動情形以及睡眠情況的功效，然而在此僅為釋例性說明，本創作不應被解釋為僅限於此。Please refer to FIG. 10 to FIG. 14. FIG. 10 is a schematic diagram illustrating the values sensed by the information collection unit of the smart waist device according to the first embodiment of the invention. As shown in FIG. 10, each time the user exhales and inhales, the value sensed by the information collection unit 126 generates a complex capacitance value due to the change in the distance d between the unit area, thereby generating obvious fluctuations, thereby sensing The waist circumference changes to generate plural waist circumference information 21, so that the smart waist circumference device 100 of the first embodiment of the invention can generate exercise intensity models 227 and sleep according to the user’s breathing rate in conjunction with the analysis unit 14 of the first embodiment of the invention. Model 228, where the exercise intensity model 227 is based on the frequency between the user’s exhalation and inhalation to determine the user’s exercise intensity during exercise, and the sleep model 228 is based on the user’s exhalation and inhalation. The frequency is used to determine whether the user enters the state of sleep, and achieves the effect of accurately monitoring the exercise and sleep conditions of the diabetic patient. However, this is only an illustrative description, and this creation should not be construed as being limited to this.

需要進一步說明的是，請參閱圖12及圖13所示，圖12為說明根據本創作第一實施例之智慧腰圍裝置所量測的腰圍資訊與消化狀況之間的示例性關係圖；圖13為說明根據本創作第一實施例之智慧腰圍裝置所量測的腰圍資訊與活動量狀況之間的示例性關係圖。根據本創作第一實施例之智慧腰圍裝置，其係可以進一步根據該等腰圍資訊21，進一步建立消化狀況模型229以及一活動量狀況模型230。其中，該消化狀況模型229係關於使用者近期的消化狀況，該等消化狀況係搭配上述之腰圍軌跡模型221、胰島素敏感指數模型222及血糖控制模型223等產生，消化狀況模型229可以是包含例如：餐食內容份量及胃食道逆流風險等分析，如圖14所示，消化狀況模型229可以進一步標示出使用者每日的飲食時間及消化狀況；該活動量狀況模型230係關於使用者近期的活動量狀況，該等活動量狀況係搭配上述之運動強度模型227及睡眠模型228等產生，活動量狀況模型230可以是包含例如：長坐、低中高強度運動狀況、以及睡眠等分析，如圖13所示，活動量狀況模型230可以進一步標示出使用者每日的動時間及活動量狀況，然而本創作不限於此。It should be further explained that, please refer to Figure 12 and Figure 13. Figure 12 is a diagram illustrating an exemplary relationship between the waist information measured by the smart waist device according to the first embodiment of the present creation and the digestive condition; Figure 13 To illustrate an exemplary relationship diagram between waist information measured by the smart waist device according to the first embodiment of the present creation and activity status. According to the smart waist device of the first embodiment of the present creation, it is possible to further establish a digestive condition model 229 and an activity volume condition model 230 based on the waist information 21. Among them, the digestion condition model 229 is related to the user's recent digestion condition. The digestion condition is generated in conjunction with the aforementioned waist trajectory model 221, insulin sensitivity index model 222, and blood sugar control model 223. The digestion condition model 229 may include, for example, : Analysis of the amount of meals and the risk of gastroesophageal reflux. As shown in Figure 14, the digestion status model 229 can further indicate the user’s daily eating time and digestion status; the activity status model 230 is related to the user’s recent Activity status, which is generated in conjunction with the aforementioned exercise intensity model 227 and sleep model 228, etc. The activity status model 230 may include, for example, long sitting, low, medium, and high intensity exercise status, and sleep analysis, as shown in the figure As shown in 13, the activity status model 230 can further indicate the daily activity time and activity status of the user, but the creation is not limited to this.

值得一提的是，除了上述之分析模型22外，分析模型22還可以是例如：脂肪肝模型丶大腸直腸息肉模型、及癌症模型等，然而本創作不限於此。It is worth mentioning that in addition to the aforementioned analysis model 22, the analysis model 22 can also be, for example, a fatty liver model, a colorectal polyp model, a cancer model, etc. However, this creation is not limited to this.

值得再提的是，根據本創作之風險評估模型27還可以是例如：脂肪肝風險模型丶大腸直腸息肉風險模型、及癌症風險模型等，然而本創作不限於此。可以理解的是，本創作所屬技術領域中具有通常知識者能夠基於上述示例再作出各種變化和調整，在此不再一一列舉。It is worth mentioning that the risk assessment model 27 according to this creation can also be, for example, a fatty liver risk model, a colorectal polyp risk model, and a cancer risk model, etc. However, this creation is not limited to this. It is understandable that those with ordinary knowledge in the technical field to which this creation belongs can make various changes and adjustments based on the above examples, which will not be listed here.

具體地，該提醒單元15，其係與分析單元14資訊連接，該提醒單元15係用於產生干涉，以致改變使用者之生活型態，Specifically, the reminder unit 15 is connected to the analysis unit 14 for information, and the reminder unit 15 is used to generate interference so as to change the life style of the user.

請參閱圖11所示，圖11為說明根據本創作第一實施例之智慧腰圍裝置的架構示意圖。在本實施例中，該提醒單元15係為揚聲器，該提醒單元15發出聲響進行干預以致有效改變使用者之生活型態。但本創作不以此為限制，在另一較佳實施例中，該提醒單元15係為顯示器或智慧型手機，該提醒單元15係為顯示器時，該通訊單元13係向該提醒單元15發出提醒資訊23，並且藉由顯示器顯示提醒資訊23，以致提醒使用者進行干預，有效改變使用者之生活型態；該提醒單元15係為智慧型手機時，該通訊單元13係向提醒單元15發出提醒資訊23，並且同時啟動該提醒單元15，該提醒單元15發出聲響及震動，以致提醒使用者進行干預，有效改變使用者之生活型態。另外，該提醒單元15可以選自為揚聲器、智慧型手機及顯示器的其中之一或其組合。Please refer to FIG. 11, which is a schematic diagram illustrating the structure of the smart waist device according to the first embodiment of the present creation. In this embodiment, the reminder unit 15 is a speaker, and the reminder unit 15 emits a sound to intervene so as to effectively change the life style of the user. However, this creation is not limited to this. In another preferred embodiment, the reminding unit 15 is a display or a smart phone, and when the reminding unit 15 is a display, the communication unit 13 sends out to the reminding unit 15 The reminder information 23, and the reminder information 23 is displayed on the display, so as to remind the user to intervene and effectively change the user's life style; when the reminder unit 15 is a smart phone, the communication unit 13 sends to the reminder unit 15 The information 23 is reminded, and the reminding unit 15 is activated at the same time. The reminding unit 15 emits sounds and vibrations so as to remind the user to intervene and effectively change the user's life style. In addition, the reminding unit 15 can be selected from one or a combination of a speaker, a smart phone, and a display.

具體地，根據本創作第一實施例之顯示單元16可以為有機發光二極體顯示器(OLED)、發光二極體顯示器(LED)、或量子點顯示器(QLED)其中之一，然而本創作不限於此。在本實施例中，該顯示單元16，其係與該分析單元資訊連接，該顯示單元16係用於展示該等分析模型22，以供使用者參考。Specifically, the display unit 16 according to the first embodiment of the present creation may be one of an organic light emitting diode display (OLED), a light emitting diode display (LED), or a quantum dot display (QLED), but the present creation does not Limited to this. In this embodiment, the display unit 16 is connected to the analysis unit information, and the display unit 16 is used to display the analysis models 22 for the user's reference.

請參閱圖14，圖14為說明根據本創作第一實施例之智慧腰圍裝置實際執行過程之流程圖。根據本創作第一實施例之智慧腰圍裝置100實際執行過程說明如下：首先，藉由呈類圓環狀的該腰帶本體11環繞於使用者之軀幹靠近腰圍處，以量測使用者之腰圍；接著，當腰帶本體11環繞於使用者之軀幹靠近腰圍處時，透過腰圍感測單元12感測使用者之腰圍，並且產生複數腰圍資訊21；之後，當腰圍感測單元12產生該等腰圍資訊21後，根據本創作之智慧腰圍裝置100藉由通訊單元13將該等腰圍資訊21發送至建置於雲端之分析單元14，以供分析單元14分析之用；之後，建置於雲端之分析單元14係根據該腰圍資訊21進行分析，例如：不同時間區間的腰圍資訊差異分析，並結合腰圍資訊與胰島素敏感指數以及血液中的葡萄糖控制、三酸甘油脂、膽固醇及脂蛋白之間呈正相關，以建立複數分析模型22，該等分析模型22包含有腰圍軌跡模型221、胰島素敏感指數模型222、血糖控制模型223、三酸甘油脂模型224、膽固醇模型225、脂蛋白模型226、運動模型227、睡眠模型228、消化狀況模型229及活動量狀況模型230；之後，藉由人工智慧單元142，針對該等分析模型22進行學習及理解並建立疾病風險評估模型27；之後，智慧腰圍裝置100係根據該分析單元14之分析以及疾病風險評估模型27，藉由耦接於該分析單元14的提醒單元15發出一提醒資訊23，其中提醒資訊23可以是聲響、顯示提醒資訊23及震動其中之一或其組合，以致改變使用者之生活型態；同時，藉由與該分析單元14資訊連接的該顯示單元16，其係展示顯示資訊24，該顯示資訊24包含該分析模型22及該疾病風險評估模型27的其中之一或其組合；之後，智慧腰圍裝置100係將該等分析模型22提供給本領域中具有通常知識者，通常知識者係根據該等分析模型22提供改善建議25，以致改變使用者之生活型態；之後，外部裝置係根據該改善建議25，查找符合該改善建議25之複數醫療保健商品資訊26，並透過該外部裝置將該等醫療保健商品資訊推薦給使用者；最後，使用者使用該智慧腰圍裝置一時間區間28後產生，於時間區間28後將該等分析模型22再次提供給本領域中具有通常知識者，通常知識者可以根據該等分析模型22提供優化資訊29，以致進一步優化疾病風險評估模型27、改善建議25以及醫療保健商品資訊26，以不斷提供使用者更新及更符合使用者之改善建議25以及醫療保健商品資訊26。Please refer to FIG. 14, which is a flowchart illustrating the actual execution process of the smart waist device according to the first embodiment of the present creation. The actual execution process of the smart waist device 100 according to the first embodiment of the present creation is described as follows: First, the waistband body 11, which is in an annular shape, is wrapped around the user's torso near the waistline to measure the user's waistline; Then, when the waist belt body 11 surrounds the torso of the user close to the waist, the waist circumference of the user is sensed through the waist circumference sensing unit 12, and a plurality of waist circumference information 21 is generated; then, when the waist circumference sensing unit 12 generates the waist circumference information After 21, the smart waist device 100 created according to the present invention sends the isometric information 21 to the analysis unit 14 built in the cloud through the communication unit 13 for analysis by the analysis unit 14; then, the analysis built in the cloud Unit 14 performs analysis based on the waist circumference information 21, such as: waist circumference information difference analysis in different time intervals, combined with waist circumference information and insulin sensitivity index, and there is a positive correlation among blood glucose control, triglycerides, cholesterol, and lipoproteins , To establish plural analysis models 22, these analysis models 22 include waist trajectory model 221, insulin sensitivity index model 222, blood glucose control model 223, triglyceride model 224, cholesterol model 225, lipoprotein model 226, exercise model 227 , Sleep model 228, digestion status model 229, and activity status model 230; after that, the artificial intelligence unit 142 is used to learn and understand the analysis models 22 and establish a disease risk assessment model 27; then, the smart waist device 100 series According to the analysis of the analysis unit 14 and the disease risk assessment model 27, the reminder unit 15 coupled to the analysis unit 14 sends out a reminder information 23, where the reminder information 23 can be one of sound, display reminder information 23, and vibration Or a combination thereof, so as to change the life style of the user; at the same time, the display unit 16 connected to the analysis unit 14 displays the display information 24, the display information 24 includes the analysis model 22 and the disease risk Evaluate one of the evaluation models 27 or a combination thereof; afterwards, the smart waist device 100 provides these analysis models 22 to a person with ordinary knowledge in the field, and the knowledgeable person usually provides improvement suggestions 25 based on the analysis models 22, so that Change the user’s life style; after that, the external device searches for multiple healthcare product information 26 that meets the improvement recommendation 25 according to the improvement recommendation 25, and recommends the healthcare product information to the user through the external device; Finally, the user uses the smart waist device for a period of time 28, and after the period of time 28, the analysis models 22 are provided again to those with ordinary knowledge in the field, who can usually provide optimizations based on the analysis models 22 Information 29, so as to further optimize the disease risk assessment model 27, improvement suggestions 25, and medical care product information 26, so as to continuously provide users with updates and more in line with the user’s improvement suggestions 25 and medical care product information 26.

藉此，本創作具有以下之實施功效及技術功效：In this way, this creation has the following implementation and technical effects:

其一，本創作藉由腰圍感測單元12感測使用者之腰圍，並且藉由分析單元14根據該等腰圍資訊21進行分析，以建立複數分析模型22，以減少原先需人為操作的重複性動作，有效降低為達到同樣效果所需付出之人力及時間。First, this creation uses the waist measurement unit 12 to sense the waist circumference of the user, and the analysis unit 14 analyzes the waist circumference information 21 to establish a complex analysis model 22 to reduce the repetitiveness of the original manual operation. Action, effectively reducing the manpower and time required to achieve the same effect.

其二，本創作藉由分析單元14，其係根據腰圍資訊與胰島素敏感指數以及血液中的葡萄糖、三酸甘油脂、膽固醇及脂蛋白之間呈正相關，以建立複數分析模型22，該等分析模型22包含有腰圍軌跡模型221、胰島素敏感指數模型222、血糖控制模型223、三酸甘油脂模型224、膽固醇模型225及脂蛋白模型226，藉此準確分析使用者之腰圍變化產生腰圍軌跡模型，達成監測使用者之血糖及血脂之功效。Second, this creation uses the analysis unit 14, which is based on the positive correlation between waist circumference information and insulin sensitivity index and blood glucose, triglycerides, cholesterol, and lipoproteins to establish a complex analysis model 22. These analyses The model 22 includes a waist circumference trajectory model 221, an insulin sensitivity index model 222, a blood sugar control model 223, a triglyceride model 224, a cholesterol model 225, and a lipoprotein model 226, so as to accurately analyze the user’s waist circumference changes to generate a waist circumference trajectory model. To achieve the effect of monitoring the user's blood sugar and blood lipids.

其三，本創作藉由提醒單元15發出一提醒資訊23，其中提醒資訊23可以是聲響、顯示提醒資訊23及震動其中之一或其組合，以致改變使用者之生活型態，達成防止及監控糖尿病患同時造成高血脂的情形之功效。Third, this creation uses the reminder unit 15 to send out a reminder message 23, where the reminder message 23 can be one or a combination of sound, display reminder message 23, and vibration, so as to change the user’s lifestyle and achieve prevention and monitoring. Diabetes patients can also cause hyperlipidemia.

其四，本創作藉由人工智慧單元142，針對分析模型22進行學習及理解並建立疾病風險評估模型27，該疾病風險評估模型27可以作為本領域中具有通常知識者，例如：醫師、營養師丶教練丶個管師及指導員等，用於介入使用者的生活型態之依據，藉此本創作提供一種潛在的低成本實施方案，將疾病風險評估模型27之應用擴展至家庭保健和行動醫療產品之應用。Fourth, this creation uses the artificial intelligence unit 142 to learn and understand the analysis model 22 and establish a disease risk assessment model 27. The disease risk assessment model 27 can be used as a person with general knowledge in the field, such as physicians and nutritionists. , Coaches, personal managers and instructors, etc., used to intervene in the basis of the user’s life style, through this creation to provide a potential low-cost implementation plan to extend the application of the disease risk assessment model 27 to family health care and mobile medicine Application of the product.

其五，本創作藉由外部裝置，將分析該等腰圍資訊21所建立之分析模型22提供給本領域中具有通常知識者，通常知識者可以根據該等分析模型22提供改善建議25，以致改變使用者之生活型態，並且根據該改善建議25查找符合改善建議25之醫療保健商品資訊26，並透過該外部裝置將該等醫療保健商品資訊26推薦給使用者。藉此，本創作提供一種更符合使用者需求之商業模式，提供使用者更精確且更專業的醫療商品推薦。Fifth, this creation uses an external device to provide the analysis model 22 established by analyzing the waist information 21 to those with ordinary knowledge in the field, who can usually provide suggestions for improvement 25 based on the analysis models 22, resulting in changes. The life style of the user, and according to the improvement suggestion 25, the medical care product information 26 that meets the improvement suggestion 25 is searched, and the medical care product information 26 is recommended to the user through the external device. In this way, this creation provides a business model that is more in line with the needs of users, and provides users with more accurate and professional medical product recommendations.

其六，使用者使用該智慧腰圍裝置經過一段時間區間28後產生，於時間區間28後將該等分析模型22再次提供給本領域中具有通常知識者，通常知識者可以根據該等分析模型22提供優化資訊29，以致進一步優化疾病風險評估模型27、改善建議25以及醫療保健商品資訊26，以不斷提供使用者更新及更符合使用者之改善建議25以及醫療保健商品資訊26。Sixth, the user uses the smart waist device to generate after a period of time 28. After the period of time 28, the analysis model 22 is provided again to those with ordinary knowledge in the field, who can usually use the analysis models 22 Provide optimization information 29 to further optimize the disease risk assessment model 27, improvement suggestions 25, and health care product information 26, so as to continuously provide users with updates and more user-friendly improvement suggestions 25 and health care product information 26.

以上係藉由特定的具體實施例說明本創作之實施方式，所屬技術領域具有通常知識者可由本說明書所揭示之內容輕易地瞭解本創作之其他優點及功效。The above is to illustrate the implementation of this creation through specific specific embodiments. Those with ordinary knowledge in the technical field can easily understand the other advantages and effects of this creation from the content disclosed in this specification.

以上所述僅為本創作之較佳實施例，並非用以限定本創作之範圍；凡其它未脫離本創作所揭示之精神下所完成之等效改變或修飾，均應包含在下述之專利範圍內。The above descriptions are only the preferred embodiments of this creation, and are not intended to limit the scope of this creation; all other equivalent changes or modifications made without departing from the spirit of this creation should be included in the following patent scope Inside.

100:智慧腰圍裝置 11:腰帶本體 12:腰圍感測單元 124:絕緣層 125:導電層 126:資訊採集單元 13:通訊單元 14:分析單元 141:儲存單元 142:人工智慧單元 15:提醒單元 16:顯示單元 21:腰圍資訊 22:分析模型 221:腰圍軌跡模型 222:胰島素敏感指數模型 223:血糖控制模型 224:三酸甘油脂模型 225:膽固醇模型 226:脂蛋白模型 227:運動強度模型 228:睡眠模型 229:消化狀況模型 230:活動量狀況模型 23:提醒資訊 24:顯示資訊 25:改善建議 26:醫療保健商品資訊 27:優化資訊 28:時間區間 200:使用者 100: Smart waist device 11: Belt body 12: Waist measurement unit 124: Insulation layer 125: conductive layer 126: Information Collection Unit 13: Communication unit 14: Analysis unit 141: storage unit 142: Artificial Intelligence Unit 15: Reminder unit 16: display unit 21: Waist information 22: Analysis model 221: Waist Circumference Model 222: Insulin Sensitivity Index Model 223: Blood Sugar Control Model 224: Triglyceride model 225: Cholesterol Model 226: Lipoprotein Model 227: Exercise Intensity Model 228: Sleep Model 229: Digestive Condition Model 230: Activity model 23: Reminder information 24: Display information 25: Suggestions for improvement 26: Healthcare product information 27: Optimize information 28: Time interval 200: user

圖1為根據本創作之智慧腰圍裝置的系統示意圖；圖2為根據本創作之智慧腰圍裝置的架構示意圖；圖3為說明根據本創作的智慧腰圍裝置分所建立之腰圍軌跡模型示意圖；圖4為說明根據本創作之智慧腰圍裝置所量測的腰圍資訊與胰島素敏感指數之間的關係圖；圖5A為說明根據本創作之智慧腰圍裝置所量測的腰圍資訊與血液中的葡萄糖之間的關係圖；圖5B為說明根據本創作之智慧腰圍裝置所量測的腰圍資訊與血液中的三酸甘油脂之間的關係圖；圖5C為說明根據本創作之智慧腰圍裝置所量測的腰圍資訊與血液中的膽固醇之間的關係圖；圖5D為說明根據本創作之智慧腰圍裝置所量測的腰圍資訊與血液中的脂蛋白之間的關係圖；圖6為說明根據本創作之智慧腰圍裝置實際執行過程之流程圖；圖7為根據本創作第一實施例之智慧腰圍裝置的系統示意圖；圖8為根據本創作第一實施例之腰圍感測單元的架構示意圖；圖9為說明本創作第一實施例之智慧腰圍裝置的使用示意圖；圖10為說明本創作第一實施例之智慧腰圍裝置的資訊採集單元所感測的數值示意圖；圖11為說明根據本創作第一實施例之智慧腰圍裝置的架構示意圖；圖12為說明根據本創作第一實施例之智慧腰圍裝置所量測的腰圍資訊與消化狀況之間的示例性關係圖；圖13為說明根據本創作第一實施例之智慧腰圍裝置所量測的腰圍資訊與活動量狀況之間的示例性關係圖圖14為說明根據本創作第一實施例之智慧腰圍裝置實際執行過程之流程圖。 Figure 1 is a system schematic diagram of the smart waist device created according to this invention; Figure 2 is a schematic diagram of the structure of the smart waist device created according to the present invention; Figure 3 is a schematic diagram illustrating the waist trajectory model established by the smart waist device created according to the present invention; 4 is a diagram illustrating the relationship between the waist circumference information measured by the smart waist circumference device of this invention and the insulin sensitivity index; FIG. 5A is a diagram illustrating the relationship between the waist information measured by the smart waist device created according to the present invention and the glucose in the blood; Figure 5B is a diagram illustrating the relationship between the waist information measured by the smart waist device created according to the present invention and the triglycerides in the blood; FIG. 5C is a diagram illustrating the relationship between the waist circumference information measured by the smart waist circumference device of this creation and the cholesterol in the blood; FIG. 5D is a diagram illustrating the relationship between the waist information measured by the smart waist device created according to the present invention and the lipoprotein in the blood; Figure 6 is a flowchart illustrating the actual execution process of the smart waist device created according to this invention; Fig. 7 is a system schematic diagram of the smart waist device according to the first embodiment of the present creation; FIG. 8 is a schematic diagram of the structure of the waist circumference sensing unit according to the first embodiment of the present creation; Figure 9 is a schematic diagram illustrating the use of the smart waist device of the first embodiment of the creation; 10 is a schematic diagram illustrating the values sensed by the information collection unit of the smart waist device according to the first embodiment of the invention; 11 is a schematic diagram illustrating the structure of the smart waist device according to the first embodiment of the present creation; 12 is a diagram illustrating an exemplary relationship between waist information measured by the smart waist device according to the first embodiment of the present creation and digestion status; FIG. 13 is a diagram illustrating an exemplary relationship between waist information measured by the smart waist device according to the first embodiment of the present creation and activity status Fig. 14 is a flowchart illustrating the actual execution process of the smart waist device according to the first embodiment of the present creation.

100:智慧腰圍裝置 100: Smart waist device

11:腰帶本體 11: Belt body

12:腰圍感測單元 12: Waist measurement unit

13:通訊單元 13: Communication unit

14:分析單元 14: Analysis unit

Claims

一種智慧腰圍裝置，其係包含有：一腰帶本體，其係呈類圓環狀，該腰帶本體係環繞於使用者之軀幹靠近腰圍處，以量測使用者之腰圍；一腰圍感測單元，其係設置於該腰帶本體上，該腰圍感測單元係持續感測使用者之腰圍，並且持續產生複數腰圍資訊；以及一通訊單元，其係與耦接於該腰圍感測單元，該通訊單元用於發送該等腰圍資訊；其中，該腰圍感測單元係包含有複數絕緣層以及複數導電層，該等絕緣層以及該等導電層設置於該腰圍感測單元的內部，又該等絕緣層以及該等導電層交互排列以產生一初始電容值，並且該等絕緣層以及該等導電層因該腰帶本體之變化產生相對位移，藉此產生複數電容值從而持續產生該等腰圍資訊，並且透過該等腰圍資訊形成一腰圍軌跡模型。 A smart waist device, which contains: A waistband body, which is in a ring-like shape. The waistband system surrounds the user's torso near the waist circumference to measure the user's waist circumference; A waistline sensing unit, which is arranged on the waistband body, the waistline sensing unit continuously senses the user's waistline, and continuously generates plural waistline information; and A communication unit coupled to the waist circumference sensing unit, and the communication unit is used to send the waist circumference information; Wherein, the waistline sensing unit includes a plurality of insulating layers and a plurality of conductive layers. The insulating layers and the conductive layers are arranged inside the waistline sensing unit, and the insulating layers and the conductive layers are alternately arranged to An initial capacitance value is generated, and the insulating layers and the conductive layers are relatively displaced due to changes in the waistband body, thereby generating complex capacitance values to continuously generate the waist information, and form a waist track through the waist information model.

如請求項1所述之智慧腰圍裝置，其中，該腰圍感測單元係進一步包含一資訊採集單元，該資訊採集單元係耦接於該等絕緣層以及該等導電層，又該資訊採集單元係用於感測該初始電容值及該等電容值，以產生該等腰圍資訊。The smart waist device according to claim 1, wherein the waist sensing unit further includes an information collection unit, the information collection unit is coupled to the insulating layers and the conductive layers, and the information collection unit is It is used to sense the initial capacitance value and the capacitance values to generate the waist circumference information.

如請求項1所述之智慧腰圍裝置，其中，該智慧腰圍裝置進一步包含一分析單元，其係與該通訊單元資訊連接，該分析單元係接收該通訊單元所發送的該等腰圍資訊，該分析單元係分析該等腰圍資訊以建立至少一分析模型並將該分析模型傳輸至一外部裝置。The smart waist device according to claim 1, wherein the smart waist device further includes an analysis unit connected to the communication unit information, the analysis unit receives the waist information sent by the communication unit, and the analysis The unit analyzes the waist information to establish at least one analysis model and transmits the analysis model to an external device.

如請求項3所述之智慧腰圍裝置，其中，該外部裝置係進一步包含有：一提醒單元，其係與該分析單元資訊連接；以及一顯示單元，其係與該分析單元資訊連接，該顯示單元係用於展示該分析模型。 The smart waist device according to claim 3, wherein the external device further includes: A reminder unit, which is connected to the analysis unit information; and A display unit is connected to the analysis unit information, and the display unit is used to display the analysis model.

如請求項3所述之智慧腰圍裝置，其中，該顯示單元可以為有機發光二極體顯示器(OLED)、發光二極體顯示器(LED)、及量子點顯示器(QLED)其中之一。The smart waist device according to claim 3, wherein the display unit may be one of an organic light emitting diode display (OLED), a light emitting diode display (LED), and a quantum dot display (QLED).

如請求項3所述之智慧腰圍裝置，其中，該分析單元係建置於雲端伺服器。The smart waist device according to claim 3, wherein the analysis unit is built on a cloud server.

如請求項3所述之智慧腰圍裝置，其中，該分析單元係分析該等腰圍資訊以建立複數分析模型，該等分析模型係包含有一胰島素敏感指數模型、一血糖控制模型、一血脂模型、一睡眠模型、一消化狀況模型、一活動量狀況模型、一脂肪肝模型丶一大腸直腸息肉模型、及一癌症模型其中之一。The smart waist device according to claim 3, wherein the analysis unit analyzes the waist information to establish a complex analysis model, and the analysis models include an insulin sensitivity index model, a blood glucose control model, a blood lipid model, and One of a sleep model, a digestive status model, an activity status model, a fatty liver model, a colorectal polyp model, and a cancer model.

如請求項3所述之智慧腰圍裝置，其中，該分析單元係進一步包含一儲存單元，其係資訊連接該通訊單元，該儲存單元係用於儲存該分析模型。The smart waist device according to claim 3, wherein the analysis unit further includes a storage unit connected to the communication unit for information, and the storage unit is used to store the analysis model.

如請求項8所述之智慧腰圍裝置，其中，該分析單元係進一步包含一人工智慧單元，其係耦接於該儲存單元，該人工智慧單元係針對該等分析模型進行學習及理解並建立一疾病風險評估模型，以供使用者參考。The smart waist device according to claim 8, wherein the analysis unit further includes an artificial intelligence unit coupled to the storage unit, and the artificial intelligence unit learns and understands the analysis models and establishes a Disease risk assessment model for users' reference.

如請求項9所述之智慧腰圍裝置，其中，該疾病風險評估模型係藉由該人工智慧單元針對該等分析模型，以對其進行分類、統計、歸納之資料大數據分析以產生之。The smart waist device according to claim 9, wherein the disease risk assessment model is generated by using the artificial intelligence unit for the analysis models to perform classification, statistics, and generalized data big data analysis.