TW201314638A - Learning machine with augmented reality mechanism - Google Patents

Abstract

The disclosure relates to a learning machine with augmented reality mechanism which includes an electronic pen and a host. The electronic pen includes a detecting unit, a processing unit, a short range communicating unit, a sensed light source and a voice receiving unit. The host is wireless signal connected to the electronic pen, and the host is applied to detect the location of the electronic pen and to receive the command of the electronic pen. The host includes a central processing unit, a camera unit, a database, a multimedia device and a communicating unit. Therefore, the sensed light source of the electronic pen is processed by the central processing unit to be a computer pointer, and thus the reality operation of the electronic pen is virtually extended via the multimedia device based on the database.

Description

具虛擬實境擴充功能的點讀裝置Point reading device with virtual reality expansion function

本揭示內容是有關於一種輔助教學電子裝置，且特別是有關於一種點讀筆裝置。
The present disclosure is directed to an auxiliary teaching electronic device, and more particularly to a point reading pen device.

一.我國有關點讀機的專利如下：
1.中華民國新型證書號M370798揭露一種具有互動功能之輔助學習裝置，包含薄膜式輸入單元、訊號轉換單元、處理單元、輸出單元及電源單元。其中，薄膜式輸入單元僅較適用於有限尺寸的操作平台。
2.中華民國新型公告號284335揭露一種數位錄音/放音的語言學習機，主要藉由微音器來接收語音類比訊號，於語音類比訊號中的靜音時間區段內，識別單字或句子，並將之儲存(或錄音)起來，同時藉一顯示器來標示其儲存位置，以供事後快速搜尋；並可藉由一喇叭，將儲存的單字或句子重覆播放聆聽，以幫助欲學習新語言的使用者。但說穿了，只是便於操作的錄放音機。
3.中華民國新型證書號M351398揭露一種語言學習電子筆，除提供普通筆的書寫功能外，亦可於當電子筆書寫；其係透過書寫方式，於電子筆主體中進行處理，而可識別出所書寫的一個或多個字體，並可以藉由使用者控制按鍵模組，輸出所欲執行的多媒體，在顯示器模組及揚聲器模組播放所選字元或字元組的相關影、音資訊等。但是，顯示螢幕過小，當使用者求知慾降低時，極有可能放棄繼續學習。另一方面，多媒體所能支援的書寫內容都是預設的，完全依賴供應端決定是否擴充，缺乏讓使用者自由操作的可能。
4.中華民國發明證書號I288372揭露一種以三點定位為基礎的點讀機，以三個接收台為基礎利用點讀筆與三點間距離或角度以確定使用點選書本的特定位置，產生超連結並於點讀機上播放對映超連結內容，讓使用者可邊看書邊有多媒體輔助教學的功能，如此可建立書本與數位內容超連結的系統。但是，所被點選的書本教案其實是早已預設好所能擴充的資料庫內容，三點定位只是用來確認哪一個預設的超連結被選取；另一方面，每次使用都需裝設三個接收台於操作範圍的角落，實殊不便。
5.中華民國發明公告號200741607揭露一種可即時上網與無線超連結學習機，特別有關於利用短距離的無線通訊使點讀機可與電腦產生超結連結的系統與方法，以學習機前臺利用點讀筆讓使用者點選書本的特定位置，產生超連結並於學習機及電腦上播放對映超連結內容。但是書本的特定位置依然是預設的，完全依賴供應端決定是否擴充，缺乏讓使用者自由操作的可能。
二.外國有關點讀機的專利如下：
1.日本公告號JP2003167504“ELECTRONIC LEARNING MACHINE,LEARNING SUPPORT METHOD AND COMPUTER READABLE RECORDING MEDIUM WITH PROGRAM FOR CARRYING OUT LEARNING SUPPORT METHOD RECORDED THEREON”，揭示一種電子學習機系統，提供減輕學習者答題負擔的機置，利用漸近式答案限縮的方式，依據上次的輸入答案，提示下次答題範圍，讓答題愈來愈接近答案，利用答案限制區的設計提昇答題的效率。
2.日本公告號JP2004004881“ELECTRONIC LEARNING MACHINE”，揭示一種可有效運用記憶體管理提昇學習成果的系統，包括有一記憶模式、一測試模式，利用表格、群組、與簡單操作完成學習程式。
3.大陸公告號CN1254163“多媒體網路閱讀學習機及其使用方法”，揭示一種多媒體網路閱讀學習機，利用直接在書本上列***、節、段特殊符號，用光筆掃描書本產生互動，網上下載輔助性的內容可幫助學習者學習的系統。
4.大陸公告號CN1489122 “拼音英語及學習機”，揭示一種有50音素、272拼音法的英文掌上型的學習機系統，提供有效率英文語音上的學習系統。
5.大陸公告號CN1661646“具有頁面指示器的學習機”，揭示一種有頁碼示別的學習機系統，包括有機體、接觸板、電路單元、頁碼指示器，提供有效率的學習系統。
6.大陸公告號CN1619477“具備USB移動盤介面的語音學習單元”，揭示一種有USB行動碟介面的說話學習機系統，包括有USB槽、USB主機介面、麥克風、D/A轉換器、電源器，提供有效率的說話學習系統。
7.大陸公告號CN1661646“具有頁面指示器的學習機”，揭示一種有頁碼示別的學習機系統，包括有機體、接觸板、電路單元、頁碼指示器，提供有效率的學習系統。
8.大陸公告號CN1584868“數碼語言學習機”，揭示一種數碼學習機系統，包括有面板、顯示幕、按鈕、機體、麥克風槽、耳機槽、電腦槽、CPU、DSP處理器、電路單元、儲存器等，提供有效率語言音上的學習系統。
綜上所述，這些有關的專利皆專注於多媒體的處理，或是以創新教學方法提昇學習效率，利用電子技術輔助用戶學習新的知識特別應用戶於語言的學習，然有關超連結的定位皆利用特殊符號或點讀板，缺乏提供彈性附加於書本上的定位工具，更遑論對特定書本做定位亦嫌狹隘，且所能支援的操作範圍與操作深度皆十分受限。

1. The patents on dot reading machines in China are as follows:
1. The Republic of China New Certificate No. M370798 discloses an auxiliary learning device with interactive functions, including a film input unit, a signal conversion unit, a processing unit, an output unit and a power supply unit. Among them, the thin film type input unit is only suitable for a limited size operating platform.
2. The Republic of China New Bulletin No. 284335 discloses a digital recording/playing language learning machine that mainly receives a voice analog signal by means of a microphone, and recognizes a word or a sentence in a silent time section of the voice analog signal, and Store (or record) it, and use a display to indicate its storage location for quick search afterwards; and use a speaker to repeat the stored words or sentences to help you learn a new language. user. But to put it bluntly, it is just a convenient recording and playback machine.
3. The Republic of China New Certificate No. M351398 exposes a language learning electronic pen. In addition to providing the writing function of a common pen, it can also be written as an electronic pen; it is processed in the main body of the electronic pen through writing, and can identify the One or more fonts written, and the user can control the button module to output the multimedia to be executed, and play the related characters or audio information of the selected character or character group in the display module and the speaker module. . However, the display screen is too small, and when the user's curiosity is lowered, it is highly likely to give up learning. On the other hand, the writing content that multimedia can support is preset, and it depends entirely on the supply side to decide whether to expand or not, and there is no possibility for the user to operate freely.
4. The Republic of China Invention Certificate No. I288372 discloses a point-reading machine based on three-point positioning. Based on three receiving stations, the distance or angle between the point pen and the three points is used to determine the specific position of the selected book. Hyperlink and play the interactive hyperlink content on the dot reading machine, so that users can read the book and have the function of multimedia assisted teaching, so that the system of hyperlinking the book and digital content can be established. However, the selected book plan is actually a database that has been pre-set to expand. The three-point positioning is only used to confirm which preset hyperlink is selected. On the other hand, it needs to be used every time. It is inconvenient to install three receiving stations in the corner of the operating range.
5. The Republic of China Invention Bulletin No. 200741607 discloses a real-time Internet access and wireless hyperlink learning machine, in particular, a system and method for utilizing short-range wireless communication to enable a dot reading machine to generate a super-junction connection with a computer, to learn from the front-end use of the machine. The point pen allows the user to click on a specific location of the book, generate a hyperlink and play the interactive hyperlink on the learning machine and the computer. However, the specific location of the book is still preset, relying entirely on the supply side to decide whether to expand, and the possibility of free operation by the user.
2. The patents of foreign related dot reading machines are as follows:
1. Japanese bulletin number JP2003167504 "ELECTRONIC LEARNING MACHINE, LEARNING SUPPORT METHOD AND COMPUTER READABLE RECORDING MEDIUM WITH PROGRAM FOR CARRYING OUT LEARNING SUPPORT METHOD RECORDED THEREON", reveals an electronic learning machine system, which provides a means for reducing the burden of the learner's answer, using the asymptotic The way the answer is limited, according to the last input answer, prompts the next answer range, so that the answer is getting closer and closer to the answer, and the design of the answer limit area is used to improve the efficiency of the answer.
2. Japan Bulletin No. JP2004004881 "ELECTRONIC LEARNING MACHINE", discloses a system that can effectively use memory management to enhance learning outcomes, including a memory mode, a test mode, and complete learning programs using tables, groups, and simple operations.
3. Mainland Announcement No. CN1254163 "Multimedia Network Reading Learning Machine and Its Usage Method", reveals a multimedia network reading learning machine, which uses the special symbols of seals, sections and paragraphs directly on the book, and scans the book with a light pen to generate interaction. , downloading accessible content online to help learners learn the system.
4. Mainland Bulletin No. CN1489122 “Pinyin English and Learning Machine”, reveals an English handheld learning machine system with 50 phonemes and 272 pinyin methods, providing a learning system with efficient English voice.
5. Mainland Bulletin No. CN1661646 "Learning Machine with Page Indicator" discloses a learning machine system with page number indication, including an organism, a contact plate, a circuit unit, a page number indicator, and an efficient learning system.
6. Mainland Announcement No. CN1619477 "Voice Learning Unit with USB Mobile Disk Interface", reveals a talking learning machine system with USB mobile disk interface, including USB slot, USB host interface, microphone, D/A converter, power supply , providing an efficient speaking learning system.
7. Mainland Bulletin No. CN1661646 "Learning Machine with Page Indicator" discloses a learning machine system with page number indication, including an organism, a contact plate, a circuit unit, a page number indicator, and an efficient learning system.
8. The mainland bulletin number CN1584868 "Digital Language Learning Machine" discloses a digital learning machine system including a panel, a display screen, a button, a body, a microphone slot, a headphone slot, a computer slot, a CPU, a DSP processor, a circuit unit, and a storage. And so on, providing a learning system with efficient language sound.
In summary, these related patents focus on multimedia processing, or improve learning efficiency with innovative teaching methods, and use electronic technology to assist users in learning new knowledge, especially in language learning. The use of special symbols or dot-reading boards lacks a positioning tool that provides flexibility to be attached to a book. In other words, the positioning of a particular book is too narrow, and the range of operations and depth of operation that can be supported are very limited.

　　因此，本揭示內容之一技術態樣是在提供一種具虛擬實境擴充功能的點讀裝置，以不僅加寬點讀筆的操作範圍，更實現加深點讀筆的操作深度的可能。
　　根據本技術態樣之一實施方式，提出一種具虛擬實境擴充功能的點讀裝置，包括一點讀筆及一點讀機，點讀機無線訊號連接點讀筆，且用以判斷點讀筆之位置。點讀筆包括一偵測單元、一收音單元、一處理單元、一短程無線通訊單元與一感應光源。偵測單元位於點讀筆之筆端，用以讀取至少一書寫資料；收音單元位於點讀筆之非筆端，用以接收至少一語音資料。處理單元位於點讀筆內部，訊號連接偵測單元及收音單元，用以辨識及處理書寫資料與語音資料，進而產生一控制訊號。短程無線通訊單元位於點讀筆內部，訊號連接處理單元，用以無線輸出控制訊號。感應光源位於點讀筆之筆端，用以供辨識點讀筆之位置。
　　點讀機包括一通訊單元、一攝像單元、一中央處理單元、一資料庫與一多媒體裝置。通訊單元用以無線訊號連接點讀筆之短程無線通訊單元，進而至少接收上述的控制訊號。攝像單元用以攝錄點讀筆之感應光源；中央處理單元訊號連接攝像單元與通訊單元，用以根據感應光源判斷點讀筆之位置，並根據控制訊號進行後續處理。資料庫係受中央處理單元存取，以根據控制訊號提供相對應於語音資料與書寫資料的資訊。最後，多媒體裝置用以搭配資料庫與中央處理單元，呈現中央處理單元根據控制訊號與點讀筆之位置所進行之後續處理。
　　藉此，中央處理單元可以透過後續處理，利用點讀筆之感應光源作為電腦游標，進而以多媒體裝置呈現資料庫所提供之虛擬擴充內容以搭配點讀筆之實境操作，實現虛擬實境擴充功能，賦予使用者更廣泛的操作範圍與更自由的操作深度。
　　具體而言，在本技術態樣其他實施方式中，偵測單元可為一射頻訊號感應器，此時點讀筆所點選之內容即預先設有相應之晶片以提供射頻訊號。更進一步的說，偵測單元亦可為一鏡頭，則透過文字或圖像辨識，點讀筆所點選之內容即無所限制。另一方面，在偵測點讀筆的位置上，感應光源可為一紅外線光源；當然，其他由點讀機與點讀筆配套的位置辨識機制亦可行。此外，點讀筆更可包括一指引光源，例如雷射，位於點讀筆之非筆端，以提供雷射光指引功能。此外，具虛擬實境擴充功能的點讀裝置更可包括一雲端平台，長程無線訊號連接點讀機之通訊單元，用以提供一可擴充式教案資料庫以供點讀機存取，並支援點讀機之擴充操作。值得注意的是，中央處理單元可以分析書寫資料或語音資料之詞性，進而自雲端平台或資料庫取得與書寫資料相對應之虛擬擴充內容後，透過多媒體裝置展現。
　　藉此，上述諸實施方式之具虛擬實境擴充功能的點讀裝置，跳脫習知諸般限制，讓點讀筆兼備了相當於電腦游標的功能，且實現了不斷更新資料庫中教案的可能。

Therefore, one aspect of the present disclosure is to provide a point reading device with a virtual reality expansion function, which not only widens the operation range of the point reading pen, but also realizes the possibility of deepening the operation depth of the point reading pen.
According to an implementation manner of the technical aspect, a point reading device with a virtual reality expansion function is provided, which comprises a point reading pen and a point reading machine, a dot reading machine wireless signal connection point reading pen, and is used for judging a point reading pen. The location. The reading pen includes a detecting unit, a sounding unit, a processing unit, a short-range wireless communication unit and an inductive light source. The detecting unit is located at the pen end of the dot reading pen for reading at least one writing material; the sound collecting unit is located at the non-pen end of the dot reading pen for receiving at least one voice material. The processing unit is located inside the point reading pen, and the signal connection detecting unit and the sound collecting unit are used for identifying and processing the writing data and the voice data, thereby generating a control signal. The short-range wireless communication unit is located inside the point reading pen, and the signal connection processing unit is used for wirelessly outputting the control signal. The inductive light source is located at the pen end of the dot reading pen for reading the position of the pen.
The dot reading machine comprises a communication unit, a camera unit, a central processing unit, a database and a multimedia device. The communication unit is configured to use a short-range wireless communication unit of the wireless signal connection point reading pen to receive at least the above control signal. The camera unit is used for recording the sensing light source of the point reading pen; the central processing unit signal is connected to the camera unit and the communication unit for determining the position of the point reading pen according to the sensing light source, and performing subsequent processing according to the control signal. The database is accessed by the central processing unit to provide information corresponding to the voice data and the written data based on the control signal. Finally, the multimedia device is used to match the database and the central processing unit to present the subsequent processing by the central processing unit according to the position of the control signal and the point pen.
Thereby, the central processing unit can use the inductive light source of the point reading pen as a computer cursor through the subsequent processing, and then present the virtual extended content provided by the database with the multimedia device to match the real operation of the point pen to realize virtual reality expansion. The function gives the user a wider range of operation and a more free depth of operation.
Specifically, in other embodiments of the present disclosure, the detecting unit may be an RF signal sensor, and the selected point of the point reading pen is pre-configured with a corresponding chip to provide an RF signal. Furthermore, the detection unit can also be a lens, which can be identified by text or image, and the content selected by the point pen is not limited. On the other hand, the sensing light source can be an infrared light source at the position of the detecting point reading pen; of course, other position recognition mechanisms matched by the dot reading machine and the point reading pen can also be used. In addition, the point reading pen may further comprise a guiding light source, such as a laser, located at a non-pen end of the point reading pen to provide a laser light guiding function. In addition, the point reading device with virtual reality expansion function may further include a cloud platform, and a long-range wireless signal connection point reading machine communication unit for providing an expandable teaching plan database for point reading machine access and support The expansion operation of the dot reading machine. It is worth noting that the central processing unit can analyze the part of speech data or voice data, and then obtain the virtual expansion content corresponding to the written data from the cloud platform or the database, and then display it through the multimedia device.
Thereby, the point reading device with the virtual reality expansion function of the above embodiments skips the conventional restrictions, so that the reading pen has the function equivalent to the computer cursor, and realizes the possibility of continuously updating the teaching plan in the database. .

　　請一併參考第1圖與第2圖，第1圖是本揭示內容一實施方式之點讀筆的結構示意圖，第2圖是本揭示內容一實施方式之點讀機的結構示意圖。第1圖中，點讀筆100包括一感應光源110、一偵測單元120、一處理單元130、一短程無線通訊單元140與一收音單元150。感應光源110位於點讀筆100之筆端，用以供辨識點讀筆100之位置；傳統的點讀筆，是沒有這樣的設計的，本案發明人基於多年致力於結合科技與教育事業之經驗，提出進一步偵測點讀筆100之實境操作，以利用軟體賦予虛擬支援及功能擴充的機制。為了實現此一機制，又兼顧點讀筆100與配套之點讀機200的製造成本，有效區隔於高成本高技術門檻之高端電子設備，提出以感應光源110，例如850nm或940nm之遠紅外線光源，作為判斷點讀筆100位置之依據。更具體的說，在操作上為了更適切使用習慣，感應光源110被裝設在點讀筆100的筆端，讓使用者可以直觀的操作點讀筆100，用點讀筆100來執行點選與書寫等動作於虛擬畫面上。
　　另一方面，偵測單元120亦位於點讀筆100之筆端，用以讀取至少一書寫資料；此處，可行的方案至少有二，其一為以射頻訊號感應器實現偵測單元120，此方案較接近傳統點讀筆之功能，亦即其仍須搭配特定的書本或讀物，在特定字串或超連結網址處設定有相應之晶片以提供射頻訊號。另一方案為以鏡頭來實現偵測單元120；此時，只要經過影像處理即可進行更不受限制之文字或圖像辨識操作。當然，上述兩種方案會施加不同的配套成本於後續的處理單元130上。更具體的說，若要以鏡頭來實現偵測單元120，則處理單元130需要選用較高階的影像處理晶片來實現，亦即至少能夠糾正鏡頭的光曲度失真。
　　此外，沿襲傳統點讀筆的基本功能，點讀筆100之非筆端，也就是相對於筆端的另一端，設有收音單元150以接收至少一語音資料，例如收錄使用者的話語。藉此，收音單元150讓點讀筆100可以更符合教育用途，例如語言學習時的糾正發音或即時翻譯，又例如幼教課程中的圖、文、音結合呈現的輔助學習機制。
　　處理單元130位於點讀筆100內部，訊號連接偵測單元120及收音單元150，用以辨識及處理兩者所擷取之書寫資料與語音資料；藉此，處理單元130可以對收入的資料進行初步的處理，使之成為適合短程傳輸的控制訊號。這樣一來，前端的各種輸入介面所收入的資料，經處理單元130初步處理後，方能即時而又有效率的向後端的點讀機200傳送，再由點讀機200提供虛擬實境擴充功能等諸般支援。
　　承上所述，短程無線通訊單元140亦位於點讀筆100內部，訊號連接處理單元130，用以無線輸出控制訊號到點讀機200。更具體的說，短程無線通訊單元140可以利用諸如藍芽通訊協定等方式來實現，在此不予贅述。
　　第2圖中，點讀機200包括一攝像單元210、一通訊單元220、一中央處理單元230、一資料庫240與一多媒體裝置250。攝像單元210用以攝錄點讀筆100之感應光源110；復以中央處理單元230對點讀筆100之位置進行判讀。更具體的說，攝像單元210可以採用一般的鏡頭，亦可加裝配套的濾光片，與感應光源110相配合來濾除周遭的環境光。若不在攝像單元210採濾光片做預處理，則後續的中央處理單元230負擔較重，但亦無不可，端視兩者工作比重與成本如何配套。
　　通訊單元220用以無線訊號連接點讀筆100之短程無線通訊單元140，進而至少接收上述的控制訊號。更進一步的說，通訊單元220除了朝前端接收點讀筆100的控制訊號，也可以向後端，例如中央伺服器或雲端平台進行雙向傳輸。易言之，通訊單元220可以是雙頻天線，也可以是兩組通訊電路或機制的整合。
　　中央處理單元230訊號連接攝像單元210與通訊單元220，用以根據感應光源110判斷點讀筆100之位置，並根據控制訊號進行後續處理。此外，資料庫240係受中央處理單元230存取，以根據控制訊號提供相對應於語音資料與書寫資料的資訊。最後，多媒體裝置250用以搭配資料庫240與中央處理單元230，呈現中央處理單元230根據控制訊號與點讀筆100之位置所進行之後續處理。
　　請參考第3圖，第3圖是本揭示內容一實施方式之具虛擬實境擴充功能的點讀裝置的操作示意圖。第3圖中，為了精簡整體架構，使點讀裝置成為易於獨立販售之完整商品，點讀裝置包括點讀筆100與點讀機200。點讀筆100之功能方塊設計圖如第1圖所示，點讀機200之功能方塊設計圖則如第2圖所示。點讀筆100與點讀機200除了傳統的功能以外，更添加了實境操作的偵測機制，進而得以提供虛擬擴充功能。更具體的說，點讀筆100可以用來做書寫或點選等筆劃操作，而點讀機200則以攝像單元210來抓取點讀筆100的實境操作。藉此，點讀機200可以用有線或無線的方式，前者例如USB線，向後端再去連接更高端的電腦設備。在此一設計方案中，中央處理單元230與資料庫240會有較完整的獨立功能，而盡量不依賴後端的電腦設備；此外，多媒體裝置250則可為揚聲器與投影裝置。舉一個實際操作的例子來說，若要利用讀寫裝置作語言學習，則點讀筆100所收入的書寫資料或語音資料，可以在點讀機200中處理，從資料庫240取出相應的多國語言或影像投影，藉由多媒體裝置250呈現出來。舉另一個實際操作的例子來說，在幼教學習中，點讀筆100的處理單元130或點讀機200的中央處理單元230可以進一步分析書寫資料或語音資料的詞性；當使用者透過點讀筆100提供一個名詞，例如車子，點讀機200即虛擬投影出一個車子的圖片，再當點讀筆100收到的資料另包含形容詞，例如紅色的車子，則點讀機200即虛擬投影出一個紅色車子的圖片，或者視使用者提供資料的順序，先出現車子，再為車子上色。當然，若設備允許的話，點讀機200之多媒體裝置250所呈現的也可以是動畫或3D影像。
　　請參考第4圖，第4圖是本揭示內容另一實施方式之具虛擬實境擴充功能的點讀裝置的操作示意圖。第4圖中，點讀裝置與伺服器300，例如電腦設備，有較深層的結合；換句話說，第3圖中的點讀機200可以是用軟體的方式，完全靠電腦來實現；或者採硬體界面的方式，透過韌體將所需的電路附加在電腦上。藉此，當點讀機200內建在電腦伺服器300，中央處理單元230、資料庫240與多媒體裝置250的功能都將更形強大。更重要的是，點讀筆100的實境操作，透過攝像單元310而被讀入電腦伺服器300，可以當作電腦的游標，不僅加寬點讀筆100的操作範圍，更加深點讀筆100的操作深度。
　　請參考第5圖，第5圖是本揭示內容又一實施方式之具虛擬實境擴充功能的點讀裝置的操作示意圖。第5圖中，電腦伺服器300與攝像單元310可以支援多枝點讀筆100。舉例來說，當多枝點讀筆100被用來操作在一個白板102時，多個點讀筆100的多個光點101會出現在白板102上，而電腦伺服器300不僅將多枝點讀筆100判斷成多個游標，更可以根據多枝點讀筆100提供的控制訊號，對各個不同的點讀筆100進行身分與權限的進一步功能劃分。換句話說，作為教育輔助設備，一枝點讀筆100可以是導師權限，而對資料庫240與多媒體裝置250所提供的教案能有較高的操作權限。另一方面，各個學員手上的點讀筆100就依其身分有相應的權限劃分，對資料庫240與多媒體裝置250所提供的教案具有相對有限的操作功能。就教育設備來說，點讀筆100當然更可包括一指引光源，例如雷射，位於點讀筆100相對於筆端的另一端，以提供雷射光指引功能，當做雷射筆來使用。
　　請參考第6圖，第6圖是本揭示內容再一實施方式之具虛擬實境擴充功能的點讀裝置的操作示意圖。第6圖中，點讀機200可以獨立成一個完整的商品，但資料庫240較有限；點讀機200也可以內建在電腦伺服器300中，而具有相對較大的資料庫240。更進一步的說，中央處理單元230可以依功能劃分，而由獨立的點讀機200中的晶片與電腦伺服器300的CPU來共同實現；易言之，中央處理單元230之劃分係指其功能而非侷限於實體。更重要的是，在本實施方式的點讀裝置中，更擴充設有雲端平台400，設備供應商可以透過雲端平台400提供更強大與新穎的教案；易言之，資料庫240並不侷限於點讀機200或電腦伺服器300，而也可以涵蓋雲端平台400。當然，承前所述，電腦伺服器300或點讀機200與雲端平台400間的資料交流，即透過前述之通訊單元220以有線或無線的方式來實施。
　　雖然本揭示內容已以諸實施方式揭露如上，然其並非用以限定本揭示內容，任何熟習此技藝者，在不脫離本揭示內容之精神和範圍內，當可作各種之更動與潤飾，因此本揭示內容之保護範圍當視後附之申請專利範圍所界定者為準。

Referring to FIG. 1 and FIG. 2 together, FIG. 1 is a schematic structural view of a dot reading pen according to an embodiment of the present disclosure, and FIG. 2 is a schematic structural view of a dot reading machine according to an embodiment of the present disclosure. In the first embodiment, the dot reading pen 100 includes an inductive light source 110, a detecting unit 120, a processing unit 130, a short-range wireless communication unit 140, and a sounding unit 150. The inductive light source 110 is located at the pen end of the dot reading pen 100 for recognizing the position of the pen 100; the traditional dot reading pen has no such design, and the inventor of the present invention is based on years of experience in combining technology and education. A mechanism for further detecting the real-time operation of the point pen 100 to utilize the software to provide virtual support and function expansion is proposed. In order to realize this mechanism, and taking into consideration the manufacturing cost of the dot reading pen 100 and the matching dot reading machine 200, the high-end electronic device which is effectively separated from the high cost and high technology threshold is proposed to have the infrared light source 110, for example, 940 nm or 940 nm far infrared. The light source is used as a basis for judging the position of the pen 100. More specifically, in order to more suitable use habits, the inductive light source 110 is installed at the pen end of the point reading pen 100, so that the user can intuitively operate the point reading pen 100, and the point reading pen 100 is used to perform the point selection and Writing and the like act on the virtual screen.
On the other hand, the detecting unit 120 is also located at the pen end of the point reading pen 100 for reading at least one writing data; here, there are at least two possible solutions, one of which is to implement the detecting unit 120 by using an RF signal sensor. This scheme is closer to the function of the traditional point pen, that is, it still needs to be matched with a specific book or reading, and a corresponding chip is set at a specific string or hyperlink website to provide an RF signal. Another solution is to implement the detecting unit 120 with a lens; at this time, a more unrestricted text or image recognition operation can be performed by image processing. Of course, the above two schemes will impose different matching costs on the subsequent processing unit 130. More specifically, if the detecting unit 120 is to be implemented by a lens, the processing unit 130 needs to select a higher-order image processing chip, that is, at least correct the optical curvature distortion of the lens.
In addition, following the basic function of the conventional pen, the non-pen end of the pen 100 is read, that is, with respect to the other end of the pen end, the radio unit 150 is provided to receive at least one voice material, for example, the user's utterance. Thereby, the sounding unit 150 allows the point reading pen 100 to be more in line with educational purposes, such as correcting pronunciation or instant translation in language learning, and, for example, a supplementary learning mechanism in which a combination of pictures, texts, and sounds in a preschool curriculum is presented.
The processing unit 130 is located inside the dot reading pen 100, and the signal connection detecting unit 120 and the sound receiving unit 150 are configured to identify and process the written data and voice data captured by the two; thereby, the processing unit 130 can perform the data on the income. Preliminary processing makes it a control signal suitable for short-range transmission. In this way, the data collected by the various input interfaces of the front end can be immediately and efficiently transmitted to the dot reading machine 200 of the back end after being processed by the processing unit 130, and the virtual reality expansion function is provided by the dot reading machine 200. Waiting for all kinds of support.
As described above, the short-range wireless communication unit 140 is also located inside the point reading pen 100, and the signal connection processing unit 130 is configured to wirelessly output the control signal to the dot reading machine 200. More specifically, the short-range wireless communication unit 140 can be implemented by using a method such as a Bluetooth communication protocol, and details are not described herein.
In FIG. 2, the dot reading machine 200 includes an image capturing unit 210, a communication unit 220, a central processing unit 230, a database 240, and a multimedia device 250. The imaging unit 210 is configured to record the sensing light source 110 of the point reading pen 100; and the central processing unit 230 determines the position of the point reading pen 100. More specifically, the camera unit 210 can use a general lens or a filter that is fitted with a sleeve to cooperate with the inductive light source 110 to filter out ambient light. If the filter unit 210 is not used for pre-processing, the subsequent central processing unit 230 is heavier, but it is also indispensable, depending on how the working proportion and cost are matched.
The communication unit 220 is configured to read the short-range wireless communication unit 140 of the pen 100 by the wireless signal connection point, and at least receive the above-mentioned control signal. Further, the communication unit 220 can perform bidirectional transmission to the back end, such as the central server or the cloud platform, in addition to receiving the control signal of the point pen 100 toward the front end. In other words, the communication unit 220 can be a dual-band antenna or an integration of two sets of communication circuits or mechanisms.
The central processing unit 230 is connected to the camera unit 210 and the communication unit 220 for determining the position of the point reading pen 100 according to the sensing light source 110, and performing subsequent processing according to the control signal. In addition, the database 240 is accessed by the central processing unit 230 to provide information corresponding to the voice data and the written data based on the control signal. Finally, the multimedia device 250 is used to match the database 240 and the central processing unit 230 to present subsequent processing by the central processing unit 230 according to the position of the control signal and the point pen 100.
Please refer to FIG. 3, which is a schematic diagram of the operation of the point reading device with the virtual reality expansion function according to an embodiment of the present disclosure. In Fig. 3, in order to streamline the overall architecture, the dot reading device is a complete product that is easy to be sold separately, and the dot reading device includes a point reading pen 100 and a dot reading machine 200. The functional block design diagram of the dot reading pen 100 is as shown in Fig. 1, and the functional block design drawing of the dot reading machine 200 is as shown in Fig. 2. In addition to the traditional functions, the point pen 100 and the dot reading machine 200 add a detection mechanism of the real-world operation, thereby providing a virtual expansion function. More specifically, the dot pen 100 can be used to perform a stroke operation such as writing or clicking, and the dot reading machine 200 captures the real operation of the pen 100 by the camera unit 210. Thereby, the dot reading machine 200 can connect to the higher end computer device to the back end in a wired or wireless manner, such as a USB cable. In this design, the central processing unit 230 and the database 240 have relatively complete independent functions, and are not dependent on the computer equipment of the back end as much as possible; in addition, the multimedia device 250 can be a speaker and a projection device. For an example of practical operation, if the reading and writing device is to be used for language learning, the writing data or the voice data collected by the pen 100 can be processed in the dot reading machine 200, and the corresponding data is retrieved from the database 240. The national language or image projection is presented by the multimedia device 250. For another example of practical operation, in the preschool education, the processing unit 130 of the point pen 100 or the central processing unit 230 of the dot reading machine 200 can further analyze the part of speech of the written data or the voice data; when the user reads through the point The pen 100 provides a noun, such as a car. The dot reading machine 200 virtually projects a picture of a car, and when the point pen 100 receives data and contains an adjective, such as a red car, the dot reading machine 200 is virtually projected. A picture of a red car, or depending on the order in which the user provides the information, first appear in the car and then color the car. Of course, if the device allows, the multimedia device 250 of the dot reader 200 may also be animated or 3D images.
Please refer to FIG. 4, which is a schematic diagram of the operation of the point reading device with the virtual reality expansion function according to another embodiment of the present disclosure. In Fig. 4, the dot reading device and the server 300, such as computer equipment, have a deeper combination; in other words, the dot reading machine 200 in Fig. 3 can be implemented in a software manner, completely by a computer; or The hardware interface is used to attach the required circuitry to the computer through the firmware. Thereby, when the dot reading machine 200 is built in the computer server 300, the functions of the central processing unit 230, the database 240 and the multimedia device 250 will be more powerful. More importantly, the real operation of the point pen 100 is read into the computer server 300 through the camera unit 310, and can be used as a cursor of the computer, which not only widens the operation range of the point pen 100, but also reads the pen more deeply. The operating depth of 100.
Please refer to FIG. 5, which is a schematic diagram of the operation of the point reading device with the virtual reality expansion function according to still another embodiment of the present disclosure. In FIG. 5, the computer server 300 and the imaging unit 310 can support the multi-point reading pen 100. For example, when the multi-point reading pen 100 is used to operate on a whiteboard 102, a plurality of light spots 101 of the plurality of dot reading pens 100 appear on the whiteboard 102, and the computer server 300 not only has multiple branches. The reading pen 100 judges a plurality of cursors, and further divides the functions and permissions of the different point reading pens 100 according to the control signals provided by the multi-point reading pen 100. In other words, as an educational aid, the pen reading pen 100 can be a tutor's authority, and can have a higher operational authority for the teaching plan provided by the database 240 and the multimedia device 250. On the other hand, the point pen 100 of each student's hand has a corresponding authority division according to his identity, and has relatively limited operational functions for the teaching plan provided by the database 240 and the multimedia device 250. In terms of educational equipment, the point pen 100 may of course further include a directing light source, such as a laser, located at the other end of the point reading pen 100 relative to the pen end to provide a laser light directing function for use as a laser pointer.
Please refer to FIG. 6. FIG. 6 is a schematic diagram of the operation of the point reading device with the virtual reality expansion function according to still another embodiment of the present disclosure. In Fig. 6, the dot reading machine 200 can be independently a complete product, but the database 240 is relatively limited; the dot reading machine 200 can also be built in the computer server 300, and has a relatively large database 240. Further, the central processing unit 230 can be divided according to functions, and the chips in the independent dot reading machine 200 are implemented together with the CPU of the computer server 300; in other words, the division of the central processing unit 230 refers to its function. Not limited to entities. More importantly, in the point reading device of the present embodiment, the cloud platform 400 is further expanded, and the device provider can provide a more powerful and novel teaching plan through the cloud platform 400; in other words, the database 240 is not limited to The dot reading machine 200 or the computer server 300 can also cover the cloud platform 400. Of course, as described above, the data exchange between the computer server 300 or the dot reader 200 and the cloud platform 400 is implemented by the aforementioned communication unit 220 in a wired or wireless manner.
The present disclosure has been disclosed in the above embodiments, and is not intended to limit the scope of the disclosure, and thus, various modifications and refinements may be made without departing from the spirit and scope of the disclosure. The scope of the disclosure is defined by the scope of the appended claims.

100．．．點讀筆100. . . Reading pen

101．．．光點101. . . light spot

102．．．白板102. . . Whiteboard

110．．．感應光源110. . . Induction light source

120．．．偵測單元120. . . Detection unit

130．．．處理單元130. . . Processing unit

140．．．短程無線通訊單元140. . . Short-range wireless communication unit

150．．．收音單元150. . . Radio unit

200．．．點讀機200. . . reading machine

210、310．．．攝像單元210, 310. . . Camera unit

220．．．通訊單元220. . . Communication unit

230．．．中央處理單元230. . . Central processing unit

240．．．資料庫240. . . database

250．．．多媒體裝置250. . . Multimedia device

300．．．伺服器300. . . server

400．．．雲端平台400. . . Cloud platform

為讓本揭示內容之上述和其他目的、特徵、優點與實施例能更明顯易懂，所附圖式之說明如下：
第1圖是本揭示內容一實施方式之點讀筆的結構示意圖。
第2圖是本揭示內容一實施方式之點讀機的結構示意圖。
第3圖是本揭示內容一實施方式之具虛擬實境擴充功能的點讀裝置的操作示意圖。
第4圖是本揭示內容另一實施方式之具虛擬實境擴充功能的點讀裝置的操作示意圖。
第5圖是本揭示內容又一實施方式之具虛擬實境擴充功能的點讀裝置的操作示意圖。
第6圖是本揭示內容再一實施方式之具虛擬實境擴充功能的點讀裝置的操作示意圖。


The above and other objects, features, advantages and embodiments of the present disclosure will become more apparent and understood.
FIG. 1 is a schematic structural view of a dot reading pen according to an embodiment of the present disclosure.
FIG. 2 is a schematic structural view of a dot reading machine according to an embodiment of the present disclosure.
FIG. 3 is a schematic diagram showing the operation of a point reading device with a virtual reality expansion function according to an embodiment of the present disclosure.
FIG. 4 is a schematic diagram showing the operation of a point reading device with a virtual reality expansion function according to another embodiment of the present disclosure.
FIG. 5 is a schematic diagram showing the operation of a point reading device with a virtual reality expansion function according to still another embodiment of the present disclosure.
FIG. 6 is a schematic diagram showing the operation of a point reading device with a virtual reality expansion function according to still another embodiment of the present disclosure.

100．．．點讀筆100. . . Reading pen

200．．．點讀機200. . . reading machine

300．．．伺服器300. . . server

400．．．雲端平台400. . . Cloud platform

Claims (10)

一種具虛擬實境擴充功能的點讀裝置，包括：
一點讀筆，包括：
　　一偵測單元，位於該點讀筆之筆端，用以讀取至少一書寫資料；
　　一收音單元，位於該點讀筆之非筆端，用以接收至少一語音資料；
　　一處理單元，位於該點讀筆內部，訊號連接該偵測單元及該收音單元，用以辨識及處理該書寫資料與該語音資料，進而產生一控制訊號；
　　一短程無線通訊單元，位於該點讀筆內部，訊號連接該處理單元，用以無線輸出該控制訊號；以及
　　一感應光源，位於該點讀筆之筆端，用以供辨識該點讀筆之位置；以及
一點讀機，無線訊號連接該點讀筆，且用以判斷該點讀筆之位置，包括：
　　一通訊單元，用以無線訊號連接該點讀筆之該短程無線通訊單元，進而至少接收該控制訊號；
　　一攝像單元，用以攝錄該點讀筆之該感應光源；
　　一中央處理單元，訊號連接該攝像單元與該通訊單元，用以根據該感應光源判斷該點讀筆之位置，並根據該控制訊號進行後續處理；
　　一資料庫，係受該中央處理單元存取，以根據該控制訊號提供相對應於該語音資料與該書寫資料的資訊；以及
　　一多媒體裝置，用以搭配該資料庫與該中央處理單元，呈現該中央處理單元根據該控制訊號與該點讀筆之位置所進行之後續處理；
藉此，該中央處理單元可以透過後續處理，利用該點讀筆之該感應光源作為電腦游標，進而以該多媒體裝置呈現該資料庫所提供之虛擬擴充內容以搭配該點讀筆之實境操作。A point reading device with virtual reality expansion function, comprising:
A little reading pen, including:
a detecting unit located at the pen end of the reading pen for reading at least one writing material;
a radio unit located at a non-pen end of the reading pen for receiving at least one voice data;
a processing unit is located inside the reading pen, and the signal is connected to the detecting unit and the sounding unit for identifying and processing the writing data and the voice data, thereby generating a control signal;
a short-range wireless communication unit, located inside the reading pen, the signal is connected to the processing unit for wirelessly outputting the control signal; and an inductive light source is located at the pen end of the reading pen for identifying the position of the reading pen And a reading machine, the wireless signal is connected to the reading pen, and is used to determine the position of the reading pen, including:
a communication unit, configured to wirelessly connect the short-range wireless communication unit of the point reading pen, and at least receive the control signal;
a camera unit for recording the sensing light source of the point reading pen;
a central processing unit, the signal is connected to the camera unit and the communication unit for determining the position of the point reading pen according to the sensing light source, and performing subsequent processing according to the control signal;
a database accessed by the central processing unit to provide information corresponding to the voice data and the written data according to the control signal; and a multimedia device for matching the database with the central processing unit The central processing unit performs subsequent processing according to the control signal and the position of the point reading pen;
Thereby, the central processing unit can use the inductive light source of the point reading pen as a computer cursor through the subsequent processing, and then present the virtual extended content provided by the database with the multimedia device to match the real operation of the point reading pen. . 如請求項1所述之具虛擬實境擴充功能的點讀裝置，其中該偵測單元係為一射頻訊號感應器。The point reading device with the virtual reality expansion function as claimed in claim 1, wherein the detecting unit is an RF signal sensor. 如請求項1所述之具虛擬實境擴充功能的點讀裝置，其中該偵測單元係為一鏡頭。The point reading device with the virtual reality expansion function as claimed in claim 1, wherein the detecting unit is a lens. 如請求項1所述之具虛擬實境擴充功能的點讀裝置，其中該感應光源係為一紅外線光源。A point reading device with a virtual reality expansion function according to claim 1, wherein the inductive light source is an infrared light source. 如請求項1所述之具虛擬實境擴充功能的點讀裝置，更包括一指引光源，位於該點讀筆之非筆端。The point reading device with the virtual reality expansion function as claimed in claim 1 further includes a guiding light source located at a non-pen end of the reading pen. 如請求項1所述之具虛擬實境擴充功能的點讀裝置，更包括一雲端平台，長程無線訊號連接該點讀機之該通訊單元，用以提供一可擴充式教案資料庫以供該點讀機存取，並支援該點讀機之擴充操作。The point reading device with the virtual reality expansion function described in claim 1 further includes a cloud platform, and the long-range wireless signal is connected to the communication unit of the dot reading machine to provide an expandable teaching material database for the The dot reading machine accesses and supports the expansion operation of the dot reading machine. 如請求項6所述之具虛擬實境擴充功能的點讀裝置，其中該中央處理單元係分析該書寫資料之詞性，進而自該雲端平台取得與該書寫資料相對應之虛擬擴充內容後，透過該多媒體裝置展現。The point reading device of the virtual reality expansion function of claim 6, wherein the central processing unit analyzes the part of speech of the written data, and then obtains the virtual extended content corresponding to the written data from the cloud platform, The multimedia device is presented. 如請求項6所述之具虛擬實境擴充功能的點讀裝置，其中該中央處理單元係分析該語音資料之詞性，進而自該雲端平台取得與該語音資料相對應之虛擬擴充內容後，透過該多媒體裝置展現。The point reading device of the virtual reality expansion function of claim 6, wherein the central processing unit analyzes the part of speech data, and then obtains the virtual extended content corresponding to the voice data from the cloud platform, The multimedia device is presented. 如請求項1所述之具虛擬實境擴充功能的點讀裝置，其中該中央處理單元係分析該書寫資料之詞性，進而自該資料庫取得與該書寫資料相對應之虛擬擴充內容後，透過該多媒體裝置展現。The point reading device of the virtual reality expansion function of claim 1, wherein the central processing unit analyzes the part of speech of the written data, and then obtains the virtual extended content corresponding to the written data from the database, The multimedia device is presented. 如請求項1所述之具虛擬實境擴充功能的點讀裝置，其中該中央處理單元係分析該語音資料之詞性，進而自該資料庫取得與該語音資料相對應之虛擬擴充內容後，透過該多媒體裝置展現。The point reading device of the virtual reality expansion function of claim 1, wherein the central processing unit analyzes the part of speech of the voice data, and then obtains the virtual extended content corresponding to the voice data from the database, The multimedia device is presented.