TW201837660A - Wearable instant interactive system - Google Patents
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Abstract
Description
本創作係有關一種即時互動系統,尤指一種使用穿戴式體感偵測裝置的即時互動系統。This creation is about a real-time interactive system, especially a real-time interactive system using a wearable body-sensory detection device.
近年來穿戴式議題非常熱門,許多知名企業都推出自家的穿戴式裝置,如美國谷歌公司的Google Glasses、美國蘋果公司的Apple Watch等等。穿戴式裝置有別於一般電子裝置,其特色在於透過貼身穿戴可以準確地取得穿戴者身上的各種資料、訊息,後續透過蒐集與資料處理,便能提供更加精確的服務,讓穿戴者產生有別於以往一般電子裝置所沒有的獨特體驗。In recent years, wearable topics have become very popular. Many well-known companies have launched their own wearable devices, such as Google Glasses of the United States, Apple Watch of the United States, and so on. Wearable devices are different from ordinary electronic devices. They are characterized in that various data and information on the wearer can be accurately obtained through personal wear, and subsequent collection and data processing can provide more accurate services and make wearers different. A unique experience not found in conventional electronic devices.
不過現階段單獨透過穿戴式裝置無法提供過於複雜的功能,所以大多數穿戴式裝置尚侷限於穿戴者身體狀況的感測之應用,可視為是行動電話的延伸功能。However, at this stage, wearable devices alone cannot provide too complicated functions, so most wearable devices are still limited to the application of the wearer's physical condition sensing, which can be regarded as an extended function of mobile phones.
目前各家廠商在穿戴式裝置方面都有不錯的研發成果,形成了各家爭鳴的狀態,在各自的封閉系統上,不同系統的穿戴式裝置互不相容,選擇某牌產品後就只能侷限於該廠商所提供的支援,難以兼容其他裝置。因此,使用者本身難以透過不同穿戴式裝置進行互動,而造成使用者孤獨一人面對電腦上活動的情境,缺乏社群互動的應用,使得穿戴式科技的發展與推廣進度停滯,難有更創新的技術突破。At present, various manufacturers have good R & D results in wearable devices, forming a state of contention. On their own closed systems, wearable devices of different systems are incompatible with each other. After selecting a certain brand of products, only Limited to the support provided by the manufacturer, it is difficult to be compatible with other devices. Therefore, it is difficult for users to interact through different wearable devices, which leads to the loneliness of the user to face the situation of activities on the computer. The lack of community interaction applications has made the development and promotion of wearable technology stagnant and it is difficult to be more innovative Technology breakthrough.
以互動式表演為例,現有互動式表演能透過影像投影技術,使影像與表演者的肢體動作產生互動,在表演前先錄製影像,配合表演者事先安排好的動作產生疊套效果(over-layering)。然而這種方法在表演期間無法有效的和觀眾進行互動產生共鳴,且容易在表演者失手時穿幫,更會出現表演者被投影出的影像覆蓋的副作用。Taking interactive performance as an example, the existing interactive performance can use image projection technology to make the image interact with the performer's body movements. Record the image before the performance and create a stacking effect with the performer's scheduled actions (over- layering). However, this method cannot effectively interact with the audience to resonate during the performance, and it is easy to wear out when the performer misses, and the side effect of the performer being covered by the projected image will also appear.
隨著科技的進步,逐漸發展出能夠感應肢體動作的偵測技術,這項技術可分類為擴增實境(augmented reality, AR)與虛擬實境(virtual reality, VR)。擴增實境讓現實場景中能出現虛擬物件,達成虛實合一。擴增實境中有微軟開發的Kinect作為代表,使用紅外線感測器來偵測深度影像,配合彩色攝影機節取影像,再從影像中分析出使用者肢體動作。但此種技術的缺點需要在大型表演中,事先測量好表演場地並進行大範圍的感測裝置架設,以期能完整涵蓋整個場地。此外紅外線感測技術容易受到舞台燈光與環境光源干擾,以及大量的影像分析所導致表演畫面上的延遲,無法呈現優良互動品質。With the advancement of science and technology, detection technologies capable of sensing limb movements have gradually been developed. This technology can be classified into augmented reality (AR) and virtual reality (VR). Augmented reality allows virtual objects to appear in real scenes, and achieves unity between virtual and reality. In the augmented reality, there is a Kinect developed by Microsoft as a representative. It uses an infrared sensor to detect depth images, cooperates with color cameras to take images, and analyzes the user's limb movements from the images. However, the shortcomings of this technology need to measure the performance venue in advance and set up a wide range of sensing devices in large-scale performances in order to completely cover the entire venue. In addition, infrared sensing technology is susceptible to interference from stage lighting and ambient light sources, as well as delays on the performance screen caused by a large number of image analysis, which cannot present excellent interactive quality.
虛擬實境則創造出完全虛擬的環境。虛擬實境中有Oculus 、Sony Playstation VR 被用於逼真的單人遊戲體驗上,不過虛擬實境仍必須透過彩色攝影機節取影像,再從影像中分析出使用者肢體動作,也需要對高品質影像資料進行高效能運算,還會拉高網路頻寬需求,因而降低了多人甚至是異地間的即時性互動,致無法更廣泛地加以應用。Virtual reality creates a completely virtual environment. In the virtual reality, Oculus and Sony Playstation VR are used for realistic single-player gaming experiences. However, the virtual reality still needs to capture images through color cameras, and then analyze the user's limb movements from the images. The high-performance computing of image data will also increase the demand for network bandwidth, thus reducing the real-time interaction between multiple people and even in different places, which cannot be applied more widely.
本創作之目的在於提供一種穿戴式即時互動系統,可解決現有擴增實境與虛擬實境因需要進行高品質影像資料運算所衍生無法廣泛應用的問題。The purpose of this creation is to provide a wearable real-time interactive system that can solve the problem that the existing augmented reality and virtual reality cannot be widely applied due to the need for high-quality image data calculations.
為達成前揭目的,本創作所提出之該穿戴式即時互動系統,其包含: 至少一體感偵測裝置,其包括複數個穿戴式檢知單元,該些穿戴式檢知單元係供感測一使用者的動作,該至少一體感偵測裝置根據該些穿戴式檢知單元所感測的使用者動作產生至少一組動作資訊; 一動作處理裝置,係連接該至少一體感偵測裝置,以接收並處理與運算該至少一組動作資訊,並根據該至少一組動作資訊產生一使用者影像資訊,又該動作處理裝置產生至少一環境影像資訊,並將該使用者影像資訊與該環境影像資訊整合為一完整影像資訊;及 至少一影像顯示裝置,係連接該動作處理裝置,以接收並顯示該完整影像資訊。In order to achieve the purpose of the previous disclosure, the wearable real-time interactive system proposed by this creation includes: at least an integrated sense detection device, which includes a plurality of wearable detection units, and the wearable detection units are provided for sensing. The action of the user, the at least integrated sensing detection device generates at least one set of motion information according to the user motion sensed by the wearable detection units; an action processing device connected to the at least integrated sensing detection device to receive And process and calculate the at least one set of action information, and generate a user image information according to the at least one set of action information, and the action processing device generates at least one environment image information, and combines the user image information and the environment image information Integrated into a complete image information; and at least one image display device connected to the motion processing device to receive and display the complete image information.
本創作之另一目的在於提供一種穿戴式即時互動系統,可在上述架構中達成多人異地的即時性互動運用。Another purpose of this creation is to provide a wearable real-time interactive system that can achieve real-time interactive use of multiple people in different places in the above-mentioned structure.
為達成前揭目的,本創作所提出之該穿戴式即時互動系統,其包含: 複數個體感偵測裝置組,每個體感偵測裝置組包含至少一體感偵測裝置,各體感偵測裝置又包括複數個穿戴式檢知單元,該些穿戴式檢知單元係供感測一使用者的動作,該至少一體感偵測裝置根據該些穿戴式檢知單元所感測的使用者動作產生至少一組動作資訊; 複數個傳輸處理裝置,係與該複數個體感偵測裝置組分別對應,各傳輸處理裝置係連接與其對應的至少一體感偵測裝置; 複數個動作處理裝置,係與該複數個傳輸處理裝置分別對應,各動作處理裝置係連接對應的傳輸處理裝置;及 至少一雲端交換器,係連接於該複數個傳輸處理裝置之間,每個傳輸處理裝置將其自對應的至少一體感偵測裝置接收的至少一組動作資訊,通過該至少一雲端交換器傳送至其他傳輸處理裝置,進而傳送到其他動作處理裝置,每個動作處理裝置接收所有的動作資訊,並根據該些動作資訊產生使用者影像資訊,又該動作處理裝置產生至少一環境影像資訊,並將該使用者影像資訊與該環境影像資訊整合為一完整影像資訊; 至少一影像顯示裝置,係連接該些傳輸處理裝置,以接收並顯示該完整影像資訊。In order to achieve the purpose of previous disclosure, the wearable real-time interactive system proposed by this creation includes: a plurality of individual sensory detection device groups, each of which includes at least one sensory device, and each sensory device It also includes a plurality of wearable detection units. The wearable detection units are for sensing a user's motion. The at least one integrated detection device generates at least one user motion based on the user motions sensed by the wearable detection units. A set of motion information; a plurality of transmission processing devices respectively corresponding to the plurality of individual sense detection device groups, each transmission processing device is connected to at least one corresponding sense detection device corresponding thereto; a plurality of motion processing devices are connected to the plurality of Each transmission processing device corresponds to each, and each action processing device is connected to the corresponding transmission processing device; and at least one cloud switch is connected between the plurality of transmission processing devices, and each transmission processing device integrates at least one of its corresponding corresponding processing devices. At least one set of motion information received by the sensing device is transmitted to other transmission processing devices through the at least one cloud switch, and Send to other action processing devices, each action processing device receives all action information, and generates user image information based on the action information, and the action processing device generates at least one environmental image information, and the user image information and The environmental image information is integrated into a complete image information; at least one image display device is connected to the transmission processing devices to receive and display the complete image information.
由於本創作係採用穿戴式的體感偵測裝置,作為偵測使用者動作的來源,因此並無既有擴增實境與虛擬實境需要進行高品質影像資料運算所衍生無法廣泛應用的問題,也因而更有機會可達成多人同地或多人異地的即時性互動運用。Since this creation uses a wearable body-sensory detection device as a source for detecting user movements, there is no problem that cannot be widely applied due to the need for high-quality image data calculations in the existing augmented reality and virtual reality. , And therefore more opportunities for real-time interactive use of multiple people in the same place or multiple people.
為了能更進一步瞭解本創作為達成預定目的所採取之技術、手段及功效,請參閱以下有關本創作之詳細說明與圖式,相信本創作之目的、特徵與功效,當可由此得一深入且具體之瞭解,然而所附圖式僅提供參考與說明用,並非用來對本創作加以限制者。In order to better understand the techniques, methods and effects adopted by this creation to achieve the intended purpose, please refer to the following detailed descriptions and diagrams of this creation. I believe that the purpose, characteristics and effects of this creation can be in-depth and Specific understanding, however, the drawings are provided for reference and explanation only, and are not intended to limit the creation.
茲有關本創作之技術內容及詳細說明,配合圖式說明如下。The technical content and detailed description of this creation are described below in conjunction with the drawings.
穿戴式設備或裝置是近年新興的技術,在目前的表演領域中應用尚少,鮮少有表演群能透過穿戴式設備進行互動式展演。其原因在於藝術展演中,通常同時存在多位表演者,當這些表演者配合彼此演出各式複雜的動作時,處處充滿著不確定性,除了無法準確預期未來表演動作外,姿態偵測的即時性也相當重要。Wearable devices or devices are emerging technologies in recent years, and they are rarely used in the current performance field. Few performance groups can perform interactive performances through wearable devices. The reason is that in art exhibitions, there are usually multiple performers at the same time. When these performers perform various complex actions with each other, they are full of uncertainty. Except that it is impossible to accurately predict future performances, the real-time detection of gestures Sex is also very important.
表演者身上的穿戴式設備扮演舉足輕重的角色,為了有效達成感應表演者間「面對、背對、靠近、遠離、舉手、轉向」等大量肢體動作,透過分時偵測拉高感應動作的每秒幀數(frame per second, FPS),確保每個時間分時區間都保有偵測資料,反應出表演者們即時的動作。The wearable device on the performer plays a pivotal role. In order to effectively sense a large number of limb movements such as "face, back to, close, away, raise hands, and turn" among the performers, the time-sensitive detection is used to raise the induction motion. Frames per second (FPS) ensures that detection data is kept in each time-sharing interval and reflects the real-time actions of the performers.
本創作著重即時感應連續動作,搭配遠端的運算系統,可達成互動展演應用。更可進一步以網路傳輸動作資料,輔以時間戳記完成異地展演互動,讓表演者就算分處不同地方,也能「同時異地進行互動」。This creation focuses on real-time sensing of continuous movements, and with remote computing systems, it can achieve interactive performance applications. Furthermore, the action data can be further transmitted through the network, supplemented by timestamps to complete interactive performances in different places, so that performers can "interact in different places at the same time" even if they are located in different places.
儘管穿戴式設備扮演舉足輕重的角色,但穿戴式設備間的整合需要花費大量時間,所以本創作提供的技術(通稱WISE)提供了一個易於整合與執行的平台,能讓穿戴式設備整合遠端的運算式系統,達成不同表演情境下的佈置。Although wearable devices play a pivotal role, the integration between wearable devices takes a lot of time, so the technology provided by this creation (commonly known as WISE) provides an easy integration and implementation platform that allows wearable devices to integrate remote Operational system to achieve layout in different performance situations.
WISE平台主要為體感姿態偵測裝置搭載無線傳輸技術,並結合異地資料即時同步整合的立體影像或虛擬實境(virtual reality, VR)/擴增實境(augmented reality, AR)/混合實境(mixed reality, MR)等情境顯示表演應用。The WISE platform is mainly equipped with wireless transmission technology for somatosensory and attitude detection devices, and combined with real-time data to synchronize the integrated stereo images or virtual reality (VR) / augmented reality (AR) / hybrid reality (mixed reality, MR) and other situations show performance applications.
WISE平台可從體感偵測穿戴裝置感應表演者姿勢動作,以分散偵測技術拉高感應的資料頻率將表演者的動作即時記錄成電子訊號,經由無線傳輸至後端資料處理系統進行同步處理、分析篩選資料,整合3D成影或VR/AR/MR系統後再透過資料傳輸系統結合不同地區伺服間預先設計的虛擬演員和表演環境,隨時調整因網路因素造成的傳遞延遲,營造出異地間的互動表演可即時地進行;此外也提供以事件判斷為基礎的回饋法,能雙向觸發表演者穿戴裝置上的反應單元,營造出振動、閃光、聲音等體感回饋。The WISE platform can sense the pose of the performer from the body-sensing detection wearable device, and use the scattered detection technology to increase the sensed data frequency to record the performer's movement as an electronic signal in real time, which is wirelessly transmitted to the back-end data processing system for synchronization 、 Analyze and screen data, integrate 3D film or VR / AR / MR system, and then combine the pre-designed virtual actors and performance environments between the servos in different regions through the data transmission system. At any time, adjust the delay caused by network factors to create a different place. The interactive performance can be performed in real time; in addition, a feedback method based on event judgment is also provided, which can trigger the reaction unit on the wearer's device in both directions, creating somatosensory feedback such as vibration, flash, and sound.
WISE平台有效減少傳統表演舞台架設線路的複雜性並突破現場表演的地域性物理限制,讓舞台和表演透過WISE平台可以有更多元、更廣域性的呈現,充實演出的效果和觀眾的數量,且易於調整應用於不同情境。The WISE platform effectively reduces the complexity of traditional performance stage erection lines and breaks the regional physical limitations of live performances, so that the stage and performance can be presented more widely and widely through the WISE platform, enriching the performance effect and the number of audiences And easy to adjust for different situations.
以下是本創作的實施例,圖1所示係本創作穿戴式即時互動系統之第一實施例的架構方塊圖。在數位互動展演中,表演者們身上的穿戴式設備透過WISE平台進行傳遞資訊與運算,依照主要功能分為三大裝置,包括一體感偵測裝置10、一動作處理裝置20以及一影像顯示裝置30,各裝置之間依功能細分為子單元與多種模組,透過不同子單元的結合完成技術的開發和平台易於整合、兼容、執行。WISE平台使用於數位互動展演中,以擁有高效率、低延遲地管理穿戴裝置間訊息的傳遞,與高擴充性的穿戴式裝置與服務管理,來簡化穿戴式互動展演的應用程式開發。The following is an embodiment of the present invention. FIG. 1 is a block diagram of the first embodiment of the wearable real-time interactive system of the present invention. In the digital interactive exhibition, wearable devices on the performers transmit information and calculations through the WISE platform. According to the main functions, they are divided into three major devices, including an integrated sense detection device 10, an action processing device 20, and an image display device. 30. Each device is subdivided into sub-units and multiple modules according to their functions. The combination of different sub-units completes the development of the technology and the platform is easy to integrate, compatible and execute. The WISE platform is used in digital interactive exhibitions to simplify the application development of wearable interactive shows with high-efficiency, low-latency management of message transmission between wearable devices, and highly scalable wearable devices and service management.
在WISE平台應用於數位互動展演上,該體感偵測裝置10係為穿戴於表演者身上的感測裝置,包括複數個穿戴式檢知單元11(稱WISE Item),該複數個穿戴式檢知單元11(WISE Item)可由一使用者穿戴在身上的數個部位,之後該使用者所作的動作,皆會由各該穿戴式檢知單元11(WISE Item)感測,而該至少一體感偵測裝置10會根據該些穿戴式檢知單元11(WISE Item)所感測的使用者動作產生至少一組動作資訊。When the WISE platform is applied to digital interactive performances, the body-sensory detection device 10 is a sensing device worn on the performer, and includes a plurality of wearable detection units 11 (called WISE Items). The awareness unit 11 (WISE Item) can be worn by a user on several parts of the body. After that, the user's actions will be sensed by each of the wearable detection units 11 (WISE Item), and the at least one sense The detection device 10 generates at least one set of motion information according to the user motion sensed by the wearable detection units 11 (WISE Item).
該穿戴式檢知單元11(WISE Item)作為該體感偵測裝置10的核心,每個穿戴式檢知單元11(WISE Item)都是獨立的節點,彼此之間互不影響,個別負責讀取資料和接收命令的功能。每個穿戴式檢知單元11(WISE Item)都是獨立的,所產生的資料只代表其被使用者穿戴之部位的運動情形,所以後續還需要透過影像模型將這些節點連接起來才能產生全身的動畫,這種行為稱之為「連動」。透過連動將各組關節連接起來,才能讓真實反應使用者各種姿態動作,像舉手時,從上手臂、前手臂到手腕的提升便是連動功能產生出來;實作時,每個穿戴式檢知單元11(WISE Item)上會設置一MPU6050(姿態感測器),每個穿戴式檢知單元11(WISE Item)係作為一個獨立節點,而主動從其上所設置的MPU6050讀取Yaw、Pitch、Roll三軸姿態資料。The wearable detection unit 11 (WISE Item) serves as the core of the somatosensory detection device 10. Each wearable detection unit 11 (WISE Item) is an independent node that does not affect each other and is individually responsible for reading Function of fetching data and receiving commands. Each wearable detection unit 11 (WISE Item) is independent, and the generated data only represents the movement of the part where it is worn by the user. Therefore, it is necessary to connect these nodes through the image model to generate a whole body. Animation, this behavior is called "linkage." Linking each group of joints through interlocking can truly reflect the user's various gestures. For example, when raising a hand, the lift from the upper arm, forearm to the wrist is the interlocking function. In practice, each wearable inspection An MPU6050 (posture sensor) will be set on the knowledge unit 11 (WISE Item). Each wearable detection unit 11 (WISE Item) acts as an independent node, and actively reads Yaw, Maw60 from the MPU6050 set on it. Pitch, Roll three-axis attitude data.
請參見圖2所示,係為本創作穿戴式即時互動系統的具體架構方塊示意圖。在本實施例中,該穿戴式檢知單元11包括一姿態偵測模組111、一距離感測模組112及一分時偵測模組113。Please refer to FIG. 2, which is a block diagram of a specific architecture of the creative wearable instant interactive system. In this embodiment, the wearable detection unit 11 includes a posture detection module 111, a distance sensing module 112, and a time-division detection module 113.
人體動作是由身上關節的轉動達成,要得知人體姿態的變化便是透過身上的感測器來取得資料,目前市面上普遍以陀螺儀(gyroscope)配合加速度計(accelerometer)來取得資料,因此在本創作的實施例係以具有內建加速計及陀螺儀的六軸姿態感測器或九軸姿態感測器作為該姿態偵測模組111之用,透過開放原始碼(open source)能自由定義姿態資料格式,不僅功能符合設計要求,市售價格也相當低廉,因此,滿足需要在各關節穿戴感測器的使用需求所達到低成本的優勢。Human motion is achieved by the rotation of the joints on the body. To learn that the change of human posture is to obtain data through the sensors on the body, the gyroscope and accelerometer are commonly used in the market to obtain data, so In the embodiment of this creation, a six-axis attitude sensor or a nine-axis attitude sensor with a built-in accelerometer and a gyroscope is used as the attitude detection module 111. The open source code can Freely define the attitude data format, which not only meets the design requirements, but also has a low price in the market. Therefore, it meets the needs of wearing sensors at various joints to achieve the advantage of low cost.
此外,該距離感測模組112係作為測距感測之用,實作尚可採用透過接收信號強度指示(received signal strength indicator, RSSI)訊號計算距離的感測器為之。該分時偵測模組113係提供各感測器獲取感測訊號、資料的時間戳記。In addition, the distance sensing module 112 is used for distance sensing. In practice, it can also use a sensor that calculates the distance through a received signal strength indicator (RSSI) signal. The time-sharing detection module 113 provides a time stamp for each sensor to obtain a sensing signal and data.
由於在實作的設計上,該些穿戴式檢知單元11(WISE Item)通常不具備可直接連接網際網路的功能,一般來說多會使用一個方便能放在身上充當藍芽和/或無線/有線網路多方轉傳功能的中介裝置協助,因此如圖2所示,具體實施時,該體感偵測裝置10進一步包括一中介服務單元12(WISE Middleware),該中介服務單元12(WISE Middleware)接收該些穿戴式檢知單元11(WISE Item)感測到的原始資料,並將該些原始資料處理成至少一組動作資訊後傳送出去。由於既有藍芽傳輸方式的連接容易因為使用者遠離的情形而呈現不穩定狀態,再加上該中介服務單元12(WISE Middleware)係由軟硬體共同構成,且與該些穿戴式檢知單元11(WISE Item)之間係透過有線或無線的傳輸方式連接,亦可以有線或無線的傳輸方式將該至少一組動作資訊傳送出去,所支援的無線傳輸方式可為WiFi、藍芽、3G、4G、5G或其他適用的無線通訊協定。更具體地,由於該些穿戴式檢知單元11(WISE Item)所傳來的原始資料並沒有固定的順序與頻率,因此該中介服務單元12(WISE Middleware)進一步包括一資料過濾模組121及一資料分析模組122,其中該資料過濾模組121係從該些穿戴式檢知單元11(WISE Item)感測到的原始資料中將非預設的資料格式濾除,以確保所接收到的動作資訊是正確、有效的,該資料分析模組122會將經過濾的原始資料再次篩選與濾除無效或不需要的資料後,轉化成至少一組動作資訊後才傳送出去。Due to the design of the implementation, these wearable detection units 11 (WISE Item) usually do not have the function of directly connecting to the Internet. Generally speaking, most of them will use one that can be placed on the body to act as a Bluetooth and / or The intermediary device of the wireless / wired network multi-party forwarding function assists. Therefore, as shown in FIG. 2, in specific implementation, the somatosensory detection device 10 further includes an intermediary service unit 12 (WISE Middleware). The intermediary service unit 12 ( WISE Middleware) receives the raw data sensed by the wearable detection units 11 (WISE Item), processes the raw data into at least one set of action information, and transmits the raw data. Because the connection of the existing Bluetooth transmission method is easy to be unstable because the user is away, the intermediary service unit 12 (WISE Middleware) is composed of hardware and software, and it is detected with these wearable devices. Units 11 (WISE Item) are connected by wired or wireless transmission methods. The at least one set of action information can also be transmitted by wired or wireless transmission methods. The supported wireless transmission methods can be WiFi, Bluetooth, 3G , 4G, 5G, or other applicable wireless communication protocols. More specifically, because the raw data transmitted by the wearable detection units 11 (WISE Item) does not have a fixed order and frequency, the intermediate service unit 12 (WISE Middleware) further includes a data filtering module 121 and A data analysis module 122, wherein the data filtering module 121 filters out non-preset data formats from the raw data sensed by the wearable detection units 11 (WISE Item) to ensure the received data The motion information is correct and valid. The data analysis module 122 will filter the filtered original data again and filter out invalid or unnecessary data, and then convert it into at least one set of motion information before sending it.
此外,該動作處理裝置20(WISE Display)係連接該至少一體感偵測裝置10,以接收並處理與運算該至少一組動作資訊,並根據該至少一組動作資訊產生一使用者影像資訊,又該動作處理裝置20(WISE Display)產生至少一環境影像資訊,並將該使用者影像資訊與該環境影像資訊整合為一完整影像資訊。In addition, the motion processing device 20 (WISE Display) is connected to the at least one sense detection device 10 to receive and process and calculate the at least one set of motion information, and generate a user image information according to the at least one set of motion information. The action processing device 20 (WISE Display) generates at least one environmental image information, and integrates the user image information and the environmental image information into a complete image information.
於本實施例中,如圖2所示,該動作處理裝置20(WISE Display)係包括一演員成影模組21、一環境建模模組22以及一事件判斷設定模組23。In this embodiment, as shown in FIG. 2, the motion processing device 20 (WISE Display) includes an actor's image-forming module 21, an environment modeling module 22, and an event judgment setting module 23.
該演員成影模組21接收並處理與運算該至少一組動作資訊,並根據該至少一組動作資訊產生使用者影像資訊,以提供虛擬角色的人物、動物…等等的影像資訊;該環境建模模組22係負責產生至少一環境影像資訊,提供場景、背景、劇場環境的環境影像資訊,並將該使用者影像資訊與該環境影像資訊整合為一完整影像資訊,使設計的角色模組融入即時的環境影像中;該事件判斷設定模組23則負責判斷該完整影像資訊中使用者影像資訊的動作,據以判別該環境影像資訊應如何調整或改變,進而通知該環境建模模組22產生新的環境影像資訊,並將該使用者影像資訊與新的環境影像資訊整合為一新的完整影像資訊。The actor filming module 21 receives and processes and calculates the at least one set of motion information, and generates user image information according to the at least one set of motion information to provide image information of characters, animals, etc. of the virtual character; the environment The modeling module 22 is responsible for generating at least one environmental image information, providing environmental image information of the scene, background, and theater environment, and integrating the user image information and the environmental image information into a complete image information, so that the role model of the design The group is integrated into the real-time environment image; the event judgment setting module 23 is responsible for judging the action of the user image information in the complete image information, so as to determine how the environment image information should be adjusted or changed, and then notify the environment modeling model. The group 22 generates new environmental image information and integrates the user image information and the new environmental image information into a new complete image information.
在本創作的實作中,涉及到資料即時性、更新速率和低延遲需求,所以在資料處理上,需要往減少資料量、縮短資料處理時間的方向走,Protocol Buffers(簡稱protobuf)的設計特性剛好著重於資料量更小、處理速度更快,以及關鍵的兼容性高,因此本創作的實施例係以protobuf作為資料傳輸之用。In the implementation of this creation, data immediacy, update rate, and low latency requirements are involved. Therefore, in data processing, we need to reduce the amount of data and shorten the data processing time. The design characteristics of Protocol Buffers (protobuf for short) It just focuses on a smaller amount of data, faster processing speed, and high key compatibility, so the embodiment of this creation uses protobuf for data transmission.
該影像顯示裝置30係連接該動作處理裝置20,以接收並顯示該完整影像資訊;實作上,該影像顯示裝置30可為一螢幕顯示器、一頭戴式顯示器、一投影機、或其他可供顯示影像畫面的設備。The image display device 30 is connected to the motion processing device 20 to receive and display the complete image information. In practice, the image display device 30 may be a screen display, a head-mounted display, a projector, or other Equipment for displaying video images.
由上述可知,使用者身著本創作之穿戴式體感偵測裝置時,只要身體有動作,該動作處理裝置20(WISE Display)即可透過該體感偵測裝置10,得知使用者的動作變化,並據以轉化為使用者影像資訊且將使用者影像資訊融入環境影像資訊,進而於該影像顯示裝置30上顯現,因此本創作並無既有擴增實境與虛擬實境需要進行高品質影像資料運算所衍生無法廣泛應用的問題。From the above, when the user is wearing the wearable body-sensory detection device created by this, as long as the body has movement, the motion processing device 20 (WISE Display) can know the user's The action changes, and accordingly, the user image information is integrated into the environmental image information, and then displayed on the image display device 30. Therefore, there is no need for existing augmented reality and virtual reality in this creation. High-quality image data operations cannot be widely applied.
又本創作的應用除將實體身體化為虛擬的身體,透過該影像顯示裝置30顯示的畫面而猶如投身虛擬空間般之外,尚可進一步衍生讓使用者在虛擬空間中產生視覺、觸覺、聽覺等感覺回饋,使體驗更加真實,因此請參閱圖3所示,係本創作具備感覺回饋功能之實施例的單人模式操作方塊圖,於本實施例中,本創作進一步包括一傳輸處理裝置40,且該穿戴式檢知單元11進一步包括一感覺反饋模組114,而該動作處理裝置20(WISE Display)則進一步包括一回饋觸發模組24。In addition to creating a physical body as a virtual body, the application created by this image display device 30 is like a virtual space, and it can be further derived to allow users to generate vision, touch, and hearing in the virtual space. The sensory feedback makes the experience more real, so please refer to FIG. 3, which is a block diagram of a single-player mode of the embodiment of the creative with sensory feedback function. In this embodiment, the creative further includes a transmission processing device 40 The wearable detection unit 11 further includes a sensory feedback module 114, and the motion processing device 20 (WISE Display) further includes a feedback trigger module 24.
該傳輸處理裝置40(WISE Platform)係連接於該動作處理裝置20(WISE Display)與該至少一體感偵測裝置10之間、以及該動作處理裝置20(WISE Display)與該影像顯示裝置30之間,以協同彼此之間的連接及資料處理,且該傳輸處理裝置40(WISE Platform)包括一區域協調器41(WISE local coordinator)及一區域暫存器42(WISE local broker)。The transmission processing device 40 (WISE Platform) is connected between the motion processing device 20 (WISE Display) and the at least one integrated detection device 10, and between the motion processing device 20 (WISE Display) and the image display device 30. In order to coordinate the connection and data processing among each other, the transmission processing device 40 (WISE Platform) includes a regional coordinator 41 (WISE local coordinator) and a regional register 42 (WISE local broker).
由於該中介服務單元12(WISE Middleware)的核心功能在軟體部分的資料處理和節點監控,因此實作時,該中介服務單元12(WISE Middleware)可透過藍芽連線接收來自該些穿戴式檢知單元11(WISE Item)讀取的原始資料,並將該些原始資料轉化成規範好的格式,產生該至少一組動作資訊後,接著再透過無線或有線網路傳送該至少一組動作資訊該傳輸處理裝置40(WISE Platform),或由該傳輸處理裝置40(WISE Platform)透過紀錄各個中介服務單元12(WISE Middleware)的MAC Address反過來傳送該感覺回饋資訊至對應的穿戴式檢知單元11(WISE Item),亦即該中介服務單元12(WISE Middleware)負責管理和該些穿戴式檢知單元11(WISE Item)的連接,然後和該傳輸處理裝置40(WISE Platform)透過協定進行管理溝通和數據傳輸。Because the core functions of the WISE Middleware 12 are data processing and node monitoring in the software part, during implementation, the WISE Middleware 12 can receive these wearable inspections through the Bluetooth connection. The original data read by the unit 11 (WISE Item) is converted into a standardized format, the at least one set of action information is generated, and then the at least one set of action information is transmitted through a wireless or wired network. The transmission processing device 40 (WISE Platform), or the transmission processing device 40 (WISE Platform) transmits the sensory feedback information to the corresponding wearable detection unit by recording the MAC Address of each intermediate service unit 12 (WISE Middleware). 11 (WISE Item), that is, the intermediary service unit 12 (WISE Middleware) is responsible for managing the connection with the wearable detection units 11 (WISE Item), and then manages with the transmission processing device 40 (WISE Platform) through an agreement Communication and data transmission.
如圖3所示,該區域協調器41(WISE local coordinator)包括一資料整合模組411及一裝置管理模組412,其中該資料整合模組411係整合接收到的該至少一組動作資訊,而該裝置管理模組412則儲存有該體感偵測裝置10的該些穿戴式檢知單元11(WISE Item)相關資訊,使該資料整合模組411可順利與該體感偵測裝置10的該些穿戴式檢知單元11(WISE Item)連線。實作時,係由該中介服務單元12(WISE Middleware)以基於IP網路的方式建立連線,和該區域協調器41(WISE local coordinator)進行協定的交握,以約定好的協定開始資料溝通、完成獲得設定檔、和該體感偵測裝置10(WISE Item)連線到傳輸姿態資料這完整的動作;並可利用人眼可讀的Json設定檔,來設定增減底層的體感偵測裝置10,設定檔中最外層以陣列來進行多組設定,並透過預先設定好的各個頻道,將不同型態的資料區分開來,讓各自的資料有專屬的頻道來完成高性能即時傳輸。此外,由於Json設定檔無法被中介服務單元12(WISE Middleware)直接讀取,因此該區域協調器41(WISE local coordinator)還可權當轉譯器,將中介服務單元12(WISE Middleware)發出的資料轉譯為Json設定檔,或是將Json設定檔轉譯為中介服務單元12(WISE Middleware)可讀取的資料。As shown in FIG. 3, the local coordinator 41 (WISE local coordinator) includes a data integration module 411 and a device management module 412. The data integration module 411 integrates the received at least one set of action information. The device management module 412 stores the relevant information of the wearable detection unit 11 (WISE Item) of the body-sensory detection device 10, so that the data integration module 411 can smoothly communicate with the body-sensory detection device 10. The wearable detection units 11 (WISE Item) are connected. In practice, the intermediary service unit 12 (WISE Middleware) establishes a connection based on the IP network, and negotiates with the WISE local coordinator 41 to start the data with the agreed agreement. Communicate, complete the setting file, and connect the somatosensory detection device 10 (WISE Item) to complete the gesture of transmitting posture data; and can use the human-readable Json profile to set the increase or decrease of the underlying body sensation Detection device 10, the outermost layer in the configuration file uses an array to perform multiple sets of settings, and separates different types of data through pre-set channels, so that each data has a dedicated channel to complete high-performance real-time transmission. In addition, since the Json profile cannot be read directly by WISE Middleware, the WISE local coordinator 41 can also act as a translator and use the data sent by WISE Middleware. Translate to a Json profile, or translate the Json profile into data that can be read by Mediation Service Unit 12 (WISE Middleware).
該區域暫存器42(WISE local broker)連接該區域協調器22(WISE local coordinator),負責暫存、過濾、與傳遞經該區域協調器41(WISE local coordinator)處理過的動作資訊,該區域暫存器42(WISE local broker)的具體實施可使用RabbitMQ或MQTT軟體達成,透過訂閱(subscriber)與發佈(publisher)減少延遲時間以及訂閱方重複收到訊息的問題;該區域暫存器42(WISE local broker)的本質係為一種訊息仲介(message broker),所做的就是接收訊息,然後再把訊息轉送出去,透過其訊息佇列系統,可以很容易將分散的資料整合起來,再協同系統一起運作。因此,透過向該區域暫存器42(WISE local broker)訂閱感測資料與發佈回饋訊號,完成雙向的資料流,即時的取得感測資料讓動畫流暢不停頓。該區域暫存器42(WISE local broker)可包括一資料儲存模組421,係作為訊息交換核心,可儲存、管理資料並保證有效期和資料的傳送。The local register 42 (WISE local broker) is connected to the local coordinator 22 (WISE local coordinator), which is responsible for temporarily storing, filtering, and transmitting action information processed by the local coordinator 41 (WISE local coordinator). The specific implementation of the register 42 (WISE local broker) can be achieved using RabbitMQ or MQTT software, reducing the delay time through subscribers and publishers, and the problem of repeated receipt of messages by subscribers; the region register 42 ( The essence of WISE local broker is a kind of message broker. What it does is to receive the message and then forward the message. Through its message queue system, it is easy to integrate the dispersed data and then cooperate with the system. Work together. Therefore, by subscribing to the sensing data and issuing feedback signals to the local register 42 (WISE local broker), the two-way data flow is completed, and the sensing data is obtained in real time to make the animation flow non-stop. The local register 42 (WISE local broker) may include a data storage module 421, which serves as the core of the message exchange. It can store and manage data and guarantee the validity period and data transmission.
該感覺反饋模組114係提供體感回饋效果,該體感回饋效果可為觸覺(例如由振動器之振動達成)、視覺(例如由閃光器之發光達成)、聽覺(例如由蜂鳴器發出聲音達成)、嗅覺(例如由香精噴發器噴出香精達成)等任一或複數種人體感知效果。The sensory feedback module 114 provides a somatosensory feedback effect. The somatosensory feedback effect may be tactile (e.g., achieved by vibration of a vibrator), visual (e.g., achieved by light from a flasher), or auditory (e.g., emitted by a buzzer) The sound is achieved), the sense of smell (for example, the fragrance is emitted by the fragrance dispenser), or any one or more of human body perception effects.
該回饋觸發模組24係與該事件判斷設定模組23連接,由該事件判斷設定模組23判斷該完整影像資訊中使用者影像資訊的動作,據以判別該回饋觸發模組24應如何動作,進而通知該回饋觸發模組24發出一對應特定穿戴式檢知單元11之感覺反饋模組114的感覺回饋資訊,通過該傳輸處理裝置40(WISE Platform)將該感覺回饋訊號傳送至對應之穿戴式檢知單元11的感覺反饋模組114,由該感覺反饋模組114產生體感回饋效果,從而達成了提供虛擬的觸覺上、聽覺上、嗅覺上、視覺上的體感回饋,讓使用者的體驗更加真實。The feedback trigger module 24 is connected to the event judgment setting module 23, and the event judgment setting module 23 judges the action of the user image information in the complete image information, thereby determining how the feedback trigger module 24 should operate And further notify the feedback trigger module 24 to send a sensory feedback information corresponding to the sensory feedback module 114 of the specific wearable detection unit 11 and transmit the sensory feedback signal to the corresponding wearer through the transmission processing device 40 (WISE Platform) The sensory feedback module 114 of the type detection unit 11 generates the somatosensory feedback effect by the sensory feedback module 114, thereby achieving the provision of virtual tactile, auditory, olfactory, and visual somatosensory feedback, allowing users to Experience is more real.
本創作除上述應用外,亦可應用於多人同地進行互動,如圖4所示,係本創作之多人同地模式實施例的操作方塊圖,由身處同一環境的兩位使用者分別穿戴一體感偵測裝置10的穿戴式檢知單元11(WISE Item),各該體感偵測裝置10個別將其穿戴式檢知單元11所感測到的使用者動作,個別產生動作資訊,並經由個別的中介服務單元12(WISE Middleware)連接且透過該傳輸處理裝置40(WISE Platform)將動作資訊傳送至該動作處理裝置20(WISE Display),經該動作處理裝置20(WISE Display)處理、運算後,將整合該複數個體感偵測裝置10所偵測之動作資訊與至少一環境影像資訊之完整影像資訊透過該傳輸處理裝置40(WISE Platform)傳送至該影像顯示裝置30。具體來說,若兩位使用者在該完整影像資訊的虛擬環境中,有互相接觸或互動的情況,該動作處理裝置20(WISE Display)可據此產生包含不同之環境影像資訊的完整影像資訊或是感覺回饋資訊,並將該包含不同之環境影像資訊的完整影像資訊透過該傳輸處理裝置40(WISE Platform)傳送至該影像顯示裝置30,或是將該感覺回饋資訊透過該傳輸處理裝置40(WISE Platform)傳送至該體感偵測裝置10,因而達成使用者可互相看到對方與自己在虛擬環境中有接觸或互動,甚至使用者還可自該體感偵測裝置10中穿戴式檢知單元11(WISE Item)的感覺反饋模組114之做動,例如振動、閃光、聲音的回饋,感覺到猶如真正的在互動或接觸,使體驗更加真實。In addition to the above applications, this creation can also be applied to multiple people interacting in the same place. As shown in Figure 4, it is an operation block diagram of the multiple people in the same mode embodiment of this creation. Two users in the same environment Wear the wearable detection unit 11 (WISE Item) of the all-in-one detection device 10 separately, and each of the body-sensory detection devices 10 individually generates the user motion sensed by its wearable detection unit 11 and generates motion information individually, It is connected through an individual intermediary service unit 12 (WISE Middleware) and transmits action information to the action processing device 20 (WISE Display) through the transmission processing device 40 (WISE Platform), and is processed by the action processing device 20 (WISE Display) After the calculation, the complete image information integrating the motion information detected by the plurality of individual sense detection devices 10 and at least one environmental image information is transmitted to the image display device 30 through the transmission processing device 40 (WISE Platform). Specifically, if two users have contact or interaction with each other in the virtual environment of the complete image information, the action processing device 20 (WISE Display) can generate complete image information including different environmental image information accordingly. Either the sensory feedback information and the complete image information including different environmental image information is transmitted to the image display device 30 through the transmission processing device 40 (WISE Platform), or the sensory feedback information is transmitted through the transmission processing device 40 (WISE Platform) is transmitted to the somatosensory detection device 10, so that users can see each other that they have contact or interaction with themselves in the virtual environment, and even users can wear from the somatosensory detection device 10 The actions of the sensory feedback module 114 of the detection unit 11 (WISE Item), such as vibration, flash, and sound feedback, feel as if they are really interacting or contacting, making the experience more real.
如圖5所示,係為本創作穿戴式即時互動系統多人異地模式操作的方塊示意圖,而為達成不同場所之使用者互動的效果,每個場所中設置之本創作的系統係形成互不相連的獨立網路拓樸(topology),要讓彼此間互動就必須進行區域間資料交換,也開始牽涉到網際網路的配置,一般常見的作法如下: 1. 可直接讓各場所中所設置的資料交換裝置40(WISE Platform)個別具有一網路位址,以透過各場所之資料交換裝置40(WISE Platform)彼此的連接來進行互動;惟為每個場所的資料交換裝置40(WISE Platform)個別網路位址的管控和作業成本較高。 2. 亦可由各場所中資料交換裝置40(WISE Platform)的其中之一作為主節點,其他場所的資料交換裝置40(WISE Platform)皆透過該作為主節點的資料交換裝置40(WISE Platform)連線,惟此做法除會讓作為主節點的資料交換裝置40(WISE Platform)負擔較重外,一旦發生故障,多人異地的連線就會受到影響。As shown in Figure 5, it is a block diagram of the operation of the creative wearable real-time interactive system in a multi-person remote location mode. In order to achieve the effect of user interaction in different places, the original creation system in each place is formed independently of each other. The topology of connected independent networks requires data exchange between regions in order to interact with each other. It also involves the configuration of the Internet. The common practice is as follows: 1. It can be directly set in each place. The data exchange device 40 (WISE Platform) individually has a network address to interact with each other through the connection of the data exchange devices 40 (WISE Platform) at each location; however, the data exchange device 40 (WISE Platform) at each location ) The cost of controlling and operating individual network addresses is high. 2. One of the data exchange devices 40 (WISE Platform) in each place can also be used as the master node. The data exchange devices 40 (WISE Platform) in other places can be connected through the data exchange device 40 (WISE Platform) as the master node. In addition to this, in addition to making the data exchange device 40 (WISE Platform) as the master node a heavy burden, once a failure occurs, the connection of multiple people to different locations will be affected.
基於上述原因,本創作於多人異地模式操作的較佳實施例,係進一步包括一雲端交換器50(WISE cloud exchanger)。例如,讓三位使用者各自裝設一體感偵測裝置10及一影像顯示裝置30,其中,一位使用者位於甲地,兩位使用者位於乙地,甲地和乙地各別皆設置有一動作處理裝置20(WISE Display)和一傳輸處理裝置40(WISE Platform),甲地的體感偵測裝置10透過甲地傳輸處理裝置40(WISE Platform)連接並傳送動作資訊至甲地的動作處理裝置20,乙地的體感偵測裝置10則透過乙地傳輸處理裝置40(WISE Platform)連接並傳送動作資訊至乙地的動作處理裝置20,而該雲端交換器50(WISE cloud exchanger)係連接於甲地之傳輸處理裝置40(WISE Platform)的區域協調器41(WISE local coordinator)及乙地之傳輸處理裝置40(WISE Platform)的區域協調器41(WISE local coordinator)之間。Based on the above reasons, the preferred embodiment of the multi-person remote operation mode further includes a WISE cloud exchanger 50. For example, let three users install an integrated sense detection device 10 and an image display device 30 respectively. One user is located in the second place, and two users are located in the second place. The first and second places are respectively set. There is a motion processing device 20 (WISE Display) and a transmission processing device 40 (WISE Platform). The physical sensory detection device 10 of Jiadi connects and transmits action information to the actions of Jiadi through Jiadi transmission processing device 40 (WISE Platform). The processing device 20, B ’s body-sensory detection device 10 is connected to B ’s motion processing device 20 via B ’s transmission processing device 40 (WISE Platform), and the WISE cloud exchanger 50 It is connected between the regional coordinator 41 (WISE local coordinator) of the transmission processing device 40 (WISE Platform) of the first place and the regional coordinator 41 (WISE local coordinator) of the transmission processing device 40 (WISE Platform) of the second place.
運作時,甲地的區域協調器41(WISE local coordinator)可自乙地之區域協調器41(WISE local coordinator)接收來自乙地的該兩個體感偵測裝置10所傳送之動作資訊,通過甲地的區域暫存器42(WISE local broker)傳送給甲地的動作處理裝置20(WISE Display),由甲地的動作處理裝置20(WISE Display)根據來自甲地和乙地之體感偵測裝置10的動作資訊,據以產生一完整影像資訊,或是同時產生該完整影像資訊和感覺回饋資訊,乙地的區域協調器41(WISE local coordinator)可自甲地之區域協調器41(WISE local coordinator)接收來自甲地的該體感偵測裝置10所傳送之動作資訊,通過乙地的區域暫存器42(WISE local broker)傳送給乙地的動作處理裝置20(WISE Display),由乙地的動作處理裝置20(WISE Display)根據來自甲地和乙地之體感偵測裝置10的動作資訊,據以產生完整影像資訊,或是同時產生該完整影像資訊和感覺回饋資訊;接著,甲地的動作處理裝置20(WISE Display)再透過甲地的傳輸處理裝置40(WISE Platform)將該完整影像資訊傳送至甲地的影像顯示裝置30上顯現、以及將該感覺回饋資訊傳送至甲地的體感偵測裝置10以由其感覺反饋模組114產生體感回饋效果,乙地的動作處理裝置20(WISE Display)再透過乙地的傳輸處理裝置40(WISE Platform)將該完整影像資訊傳送至乙地的影像顯示裝置30上顯現、以及將該感覺回饋資訊傳送至乙地的體感偵測裝置10以由其感覺反饋模組114產生體感回饋效果,如此一來,即使是分別身處於甲乙兩地的使用者,皆可透過本實施例的運作,達到多人異地的即時性互動運用,讓使用者的體驗更加真實。During operation, the local coordinator 41 (WISE local coordinator) can receive the motion information transmitted by the two body-sensory detection devices 10 from the local coordinator 41 (WISE local coordinator). The local register 42 (WISE local broker) of Jiadi is transmitted to the action processing device 20 (WISE Display) of Jiadi, which is detected by the movement processing device 20 (WISE Display) of Jiadi based on the physical sensory detection from Jiadi and Bidi The motion information of the testing device 10 is used to generate a complete image information, or the complete image information and sensory feedback information are generated at the same time. The WISE local coordinator 41 of the second place may WISE local coordinator) receives the motion information transmitted by the body-sensory detection device 10 from A, and transmits it to B ’s motion processing device 20 (WISE Display) through B ’s local register 42 (WISE local broker). The motion processing device 20 (WISE Display) of the second place generates complete image information based on the motion information from the body-sensing detection device 10 of the first and second places, or simultaneously generates the complete image information and sensory feedback Then, Jiadi ’s action processing device 20 (WISE Display) transmitted the complete image information to Jiadi ’s image display device 30 for transmission through Jiadi ’s transmission processing device 40 (WISE Platform) for display and feedback. The information is transmitted to the physical sensory detection device 10 of Jiadi to generate the somatosensory feedback effect by its sensory feedback module 114. The action processing device 20 (WISE Display) of Bidi then transmits the device 40 (WISE Platform) of Bidi The complete image information is transmitted to B ’s image display device 30 for display, and the sensory feedback information is transmitted to B ’s body-sensory detection device 10 to generate the body-sensory feedback effect from its sensory feedback module 114. In the meantime, even users who are respectively located in places A and B can use the operation of this embodiment to achieve real-time interactive use of multiple people in different places and make the user experience more real.
具體地,甲地與乙地的異地資料與資訊傳輸、交換,係透過雲端交換器50(WISE cloud exchanger)所執行,該雲端交換器50(WISE cloud exchanger)係提供不同之傳輸處理裝置40(WISE Platform)之間的資料交換。在本較佳實施例中,該雲端交換器50(WISE cloud exchanger)包含有一資料同步模組51、一資料儲存模組52及一資料轉發模組53。該資料同步模組51是發揮於多位使用者時,也就是當該穿戴式即時互動系統具有複數體感偵測裝置10來分別感測多位使用者的動作時,該資料同步模組51會對齊該資料分析模組122篩選與濾除後的全身資料產生的時間軸,達到資料同步的目的,完成後將資料提供至該資料儲存模組52與該資料轉發模組53。該資料儲存模組52係用以暫存資料。該資料轉發模組53用於和其他動作處理裝置20(WISE Display)溝通。Specifically, the off-site data and information transmission and exchange between Site A and Site B are performed through WISE cloud exchanger 50, which provides different transmission processing devices 40 ( WISE Platform). In this preferred embodiment, the WISE cloud exchanger 50 includes a data synchronization module 51, a data storage module 52, and a data forwarding module 53. The data synchronization module 51 is used by multiple users, that is, when the wearable real-time interactive system has a plurality of body-sensing detection devices 10 to sense the actions of multiple users, respectively, the data synchronization module 51 The data analysis module 122 will be aligned with the time axis generated by filtering and filtering the whole body data to achieve the purpose of data synchronization. After completion, the data will be provided to the data storage module 52 and the data forwarding module 53. The data storage module 52 is used to temporarily store data. The data forwarding module 53 is used to communicate with other motion processing devices 20 (WISE Display).
此外,為了避免因單一雲端服務網路阻塞造成所有節點的影像即時性下降,如圖6所示,本創作之另一較佳實施例可在雲端佈建複數個雲端交換器50(WISE cloud exchanger),每個雲端交換器50(WISE cloud exchanger)除了進行區域間交換資料之外,同時還兼具連線品質的偵測功能,於本實施例中,所謂連線品質係以網路封包來回時間(round trip time, RTT)作為判斷的依據,越低者代表連線品質越好,透過網路傳輸所帶來的延遲越少,越高則反之;然後該區域協調器41(WISE local coordinator)可試探地朝向每個雲端交換器50(WISE cloud exchanger)發送網路封包,並根據網路封包來回時間RTT選擇所需時間最短的雲端交換器50(WISE cloud exchanger)來進行資料傳輸。具體實施時,會在每個區域協調器41(WISE local coordinator)根據設定檔跟每個雲端交換器50(WISE cloud exchanger)先行連線,當穩定連線後會定期由各雲端交換器50(WISE cloud exchanger)對每個區域協調器41(WISE local coordinator)發出偵測RTT值的封包,依照定義的資料格式,以get/RTT的行為,各雲端交換器50(WISE cloud exchanger)計算從發出封包到自每個區域協調器41(WISE local coordinator)回收封包的時間作為每個區域協調器41(WISE local coordinator)的初始RTT值,例如是RTT1 、RTT2 、…RTTN ,但各區域協調器41(WISE local coordinator)的RTT值需經過以下的修正運算方可得到,其步驟如下: 步驟1:先計算總值 RTTtotal =RTT1 +RTT2 +…+RTTN 步驟2:修正運算後各區域協調器41(WISE local coordinator)的RTTN 值 RTT1 =(RTTtotal −RTT1 )/(N−1)+RTT1 RTT2 =(RTTtotal −RTT2 )/(N−1)+RTT2 … RTTN =(RTTtotal −RTTN )/(N−1)+RTTN In addition, in order to avoid the real-time degradation of the image of all nodes due to the congestion of a single cloud service network, as shown in FIG. 6, another preferred embodiment of this creation can deploy multiple cloud exchangers 50 (WISE cloud exchanger) ), In addition to exchanging data between regions, each cloud exchange 50 (WISE cloud exchanger) also has a connection quality detection function. In this embodiment, the so-called connection quality is the network packet back and forth Time (round trip time, RTT) is used as the basis of judgment. The lower the lower, the better the connection quality. The lower the delay caused by the transmission through the network, the higher the reverse; and then the WISE local coordinator 41 ) Send a network packet to each WISE cloud exchanger 50 tentatively, and select the WISE cloud exchanger 50 (WISE cloud exchanger) with the shortest time required for data transmission according to the network packet round-trip time RTT. During specific implementation, each WISE local coordinator (41) will first connect to each WISE cloud exchanger (50) according to the configuration file. When the connection is stable, it will be periodically connected by each cloud exchanger (50). WISE cloud exchanger) sends a packet to detect the RTT value to each regional coordinator 41 (WISE local coordinator). According to the defined data format, each cloud exchange 50 (WISE cloud exchanger) calculates the The time from the packet to the packet recovery from each WISE local coordinator 41 is used as the initial RTT value of each WISE local coordinator, such as RTT 1 , RTT 2 ,... RTT N , but each region The RTT value of the coordinator 41 (WISE local coordinator) can be obtained through the following correction operations. The steps are as follows: Step 1: First calculate the total value RTT total = RTT 1 + RTT 2 + ... + RTT N Step 2: Correct the operation RTT N value of each regional coordinator 41 (WISE local coordinator) RTT 1 = (RTT total −RTT 1 ) / (N−1) + RTT 1 RTT 2 = (RTT total −RTT 2 ) / (N−1) + RTT 2 … RTT N = (RTT total −RTT N ) / (N−1) + RTT N
各雲端交換器50(WISE cloud exchanger)將所運算的每個區域協調器41(WISE local coordinator)的RTTN 值傳送給對應的區域協調器41(WISE local coordinator),如此一來每個區域協調器41(WISE local coordinator)就可取得對應不同雲端交換器50(WISE cloud exchanger)的RTTN 值。Each cloud exchange 50 (WISE cloud exchanger) transmits the calculated RTT N value of each regional coordinator 41 (WISE local coordinator) to the corresponding regional coordinator 41 (WISE local coordinator). The device 41 (WISE local coordinator) can obtain the RTT N value corresponding to different WISE cloud exchangers 50.
經由上述方式,不需要複雜的計算就能讓各區域協調器41(WISE local coordinator)知曉其與每個雲端交換器50(WISE cloud exchanger)之間的RTT值。之後,每個區域協調器41(WISE local coordinator)就可選擇連線品質最佳的雲端交換器50(WISE cloud exchanger)來進行資料傳輸。Through the above method, each area coordinator 41 (WISE local coordinator) is required to know the RTT value between it and each WISE cloud exchanger 50 without complicated calculation. After that, each regional coordinator 41 (WISE local coordinator) can select a WISE cloud exchanger 50 with the best connection quality for data transmission.
較佳地,每個雲端交換器50(WISE cloud exchanger)每次只會接收來自一區域協調器41(WISE local coordinator)的資料,並轉傳給其他區域協調器41(WISE local coordinator),如此可確保每次連線都能保持最低延遲。Preferably, each WISE cloud exchanger 50 (WISE cloud exchanger) will only receive data from one WISE local coordinator 41 at a time, and forward it to other WISE local coordinator 41, so This ensures minimum latency for every connection.
若將本發明穿戴式即時互動系統應用在多人異地展演時,其架構圖如圖7所示。由於地理上的距離侷限了現有的藝術展演,讓表演者互動範圍必須被限制在同一舞台上。然而利用本創作之技術,就能突破地區限制,當身處兩地或甚至超過兩地的表演者彼此進行諸如移動、轉身等動作時,該體感偵測裝置10將獲取使用者的動作資訊,透過微型可編程電腦收整該動作資訊並加上時間戳記後,該動作資訊又可透過該雲端交換器50(WISE cloud exchanger)進行資料傳輸,如圖所示雖有多台雲端交換器50(WISE cloud exchanger),但本創作可自動篩選最佳傳送品質的雲端交換器50(WISE cloud exchanger)進行資料傳輸,以無線傳輸技術將動作資訊傳送到每個場地的動作處理裝置20(WISE Display)上進行統一高效運算的整合、判斷及分析篩選,有效地將龐大而零散的動作資訊轉化為完整影像資訊及感覺回饋資訊,如此一來,身處異地的眾多表演者,除可透過該影像顯示裝置30看到其他表演者在眼前,甚至是身處異地的表演者之間亦可產生猶如真正的在互動或接觸,如此展演的舞台就可拓展到全世界,打破地理空間的隔閡。If the wearable instant interactive system of the present invention is applied to a multi-person performance in a different place, the architecture diagram is shown in FIG. 7. Because of the geographical distance that limits existing art performances, the range of interaction between performers must be limited to the same stage. However, by using the technology of this creation, it is possible to break through the regional restrictions. When performers in two places or even more than two perform actions such as moving, turning, etc., the body-sensory detection device 10 will obtain user's action information. After the action information is collected and timestamped by a micro-programmable computer, the action information can be transmitted through the WISE cloud exchanger 50. Although there are multiple cloud switches 50 as shown in the figure (WISE cloud exchanger), but this creation can automatically screen the best transmission quality of the WISE cloud exchanger 50 (WISE cloud exchanger) for data transmission, wireless transmission technology to transmit action information to the action processing device 20 (WISE Display ) To perform unified and efficient operation integration, judgment and analysis and screening, effectively transforming large and scattered motion information into complete image information and sensory feedback information. In this way, many performers in different places can use the image When the display device 30 sees other performers in front of it, even among performers in different places, it can produce a real interaction or Touch, so the stage performances can be extended to the whole world, to break the barriers of geographical space.
由上述可知,透過沉浸式的虛擬實境與穿戴式系統,讓表演者在虛擬空間中進行互動,並且發揮實質的感覺回饋。體驗中,多位表演者分別處於異地,透過虛擬實境眼鏡(virtual reality, VR)以及該體感偵測裝置10,立即將實體身體化為虛擬的身體,投身虛擬空間進行互動。一切在虛擬空間中的碰觸,也會產生視覺、觸覺、聽覺從而產生感覺的回饋,使體驗更加真實。From the above, it can be known that through immersive virtual reality and wearable systems, performers can interact in a virtual space and play a substantial sense of feedback. During the experience, multiple performers were located in different places. Through virtual reality glasses (VR) and the somatosensory detection device 10, they immediately transformed the physical body into a virtual body and engaged in a virtual space to interact. All touches in the virtual space will also produce visual, tactile, and auditory sensations, thus giving a sense of feedback, making the experience more real.
透過以身體作為聲音及視覺效果的產生器,結合VR、肢體偵測器及觸覺感應器等,將實體的身體轉化為虛擬的身體。藉由網路將不同地點的身體,傳輸到雲端上,形成一個虛擬身體的虛擬社交場域。彼此可以觸摸對方虛擬身體而引發聲音,實體身體亦會有真實觸覺的感覺。以全新的身體直覺出發,開創全新的科技媒體。By using the body as a generator of sound and visual effects, combined with VR, limb detectors and tactile sensors, the physical body is transformed into a virtual body. Through the Internet, the bodies of different places are transmitted to the cloud to form a virtual social field of a virtual body. Each other can touch each other's virtual body to cause sounds, and the physical body will also have a real sense of touch. Start with a new body intuition and create a new technology media.
惟,以上所述,僅為本創作較佳具體實施例之詳細說明與圖式,惟本創作之特徵並不侷限於此,並非用以限制本創作,本創作之所有範圍應以下述之申請專利範圍為準,凡合於本創作申請專利範圍之精神與其類似變化之實施例,皆應包含於本創作之範疇中,任何熟悉該項技藝者在本創作之領域內,可輕易思及之變化或修飾皆可涵蓋在以下本案之專利範圍。However, the above are only detailed descriptions and drawings of the preferred specific embodiments of the creation, but the characteristics of the creation are not limited to this, and are not intended to limit the creation. The entire scope of the creation should be applied as follows The scope of patents shall prevail. All the embodiments that are in line with the spirit of the patent scope of this creation and similar changes shall be included in the scope of this creation. Anyone who is familiar with the art can easily think about it in the field of this creation. Variations or modifications can be covered by the patent scope of the following case.
10‧‧‧體感偵測裝置10‧‧‧Somatosensory detection device
11‧‧‧穿戴式檢知單元11‧‧‧ Wearable Detection Unit
111‧‧‧姿態偵測模組111‧‧‧Attitude Detection Module
112‧‧‧距離感測模組112‧‧‧Distance sensing module
113‧‧‧分時偵測模組113‧‧‧time detection module
114‧‧‧感覺反饋模組114‧‧‧ Sensory Feedback Module
12‧‧‧中介服務單元12‧‧‧ Intermediary Service Unit
121‧‧‧資料過濾模組121‧‧‧Data Filtering Module
122‧‧‧資料分析模組122‧‧‧Data Analysis Module
20‧‧‧動作處理裝置20‧‧‧Action processing device
21‧‧‧演員成影模組21‧‧‧ Actor into a film module
22‧‧‧環境建模模組22‧‧‧ Environmental Modeling Module
23‧‧‧事件判斷設定模組23‧‧‧Event judgment setting module
24‧‧‧回饋觸發模組24‧‧‧Feedback trigger module
30‧‧‧影像顯示裝置30‧‧‧Image display device
40‧‧‧資料交換裝置40‧‧‧Data Exchange Device
41‧‧‧區域協調器41‧‧‧ Regional Coordinator
411‧‧‧資料整合模組411‧‧‧Data Integration Module
412‧‧‧裝置管理模組412‧‧‧device management module
42‧‧‧區域暫存器42‧‧‧Regional register
50‧‧‧雲端交換器50‧‧‧ Cloud Switch
51‧‧‧資料同步模組51‧‧‧Data synchronization module
52‧‧‧資料儲存模組52‧‧‧Data Storage Module
53‧‧‧資料轉發模組53‧‧‧Data Forwarding Module
圖1:為本創作穿戴式即時互動系統的架構方塊圖。 圖2:為本創作穿戴式即時互動系統的具體架構方塊示意圖。 圖3:為本創作穿戴式即時互動系統單人模式操作的方塊示意圖。 圖4:為本創作穿戴式即時互動系統多人同地模式操作的具體架構方塊圖。 圖5:為本創作穿戴式即時互動系統多人異地模式操作的具體架構方塊圖。 圖6:為本創作穿戴式即時互動系統異地展演的系統架構示意圖。 圖7:為本創作穿戴式即時互動系統雲端交換器提供不同區域間的資料交換的示意圖。Figure 1: A block diagram of the architecture of this creative wearable instant interactive system. Fig. 2: Schematic block diagram of the specific architecture of this wearable instant interactive system. Figure 3: A block diagram of the single-player operation of the creative wearable instant interactive system. Figure 4: A block diagram of the specific architecture of the multi-person co-location mode operation of the creative wearable instant interactive system. Figure 5: A block diagram of the specific architecture of the multi-player remote mode operation of the creative wearable instant interactive system. Figure 6: Schematic diagram of the system architecture of the creative wearable instant interactive system performing in different places. Figure 7: Schematic diagram of the data exchange between different regions provided by this creative wearable instant interactive system cloud exchange.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US10928927B2 (en) | 2018-12-28 | 2021-02-23 | Aten International Co., Ltd. | Video interactive system |
CN113029190A (en) * | 2019-12-09 | 2021-06-25 | 未来市股份有限公司 | Motion tracking system and method |
TWI839214B (en) * | 2023-04-10 | 2024-04-11 | 宏達國際電子股份有限公司 | Hand-free haptic feedback system and method |
Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI679557B (en) * | 2018-05-14 | 2019-12-11 | 國立臺灣師範大學 | Adaptive sport posture sensing system and method |
TWI737068B (en) * | 2019-12-06 | 2021-08-21 | 未來市股份有限公司 | Motion tracking system and method |
TWI725803B (en) * | 2020-03-31 | 2021-04-21 | 林閔瑩 | System for recognizing abnormal activity of human body using wearable electronic device and mixed reality technology |
Family Cites Families (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7085818B2 (en) * | 2001-09-27 | 2006-08-01 | International Business Machines Corporation | Method, system, and program for providing information on proximate events based on current location and user availability |
TWI459768B (en) * | 2011-12-30 | 2014-11-01 | Ind Tech Res Inst | Communication system and method for assisting transmission of tcp packets |
CN203070360U (en) * | 2012-10-22 | 2013-07-17 | 广州新节奏数码科技有限公司 | Virtual dressing equipment |
CN104104647B (en) * | 2013-04-02 | 2018-02-06 | 宏碁股份有限公司 | Maintain bus connection method |
US9311792B2 (en) * | 2013-09-27 | 2016-04-12 | Nokia Technologies Oy | Wearable electronic device |
TWI537767B (en) * | 2013-10-04 | 2016-06-11 | 財團法人工業技術研究院 | System and method of multi-user coaching inside a tunable motion-sensing range |
IN2013CH05466A (en) * | 2013-11-27 | 2015-05-29 | Ineda Systems Pvt Ltd | |
CN105279354B (en) * | 2014-06-27 | 2018-03-27 | 冠捷投资有限公司 | User can incorporate the situation construct system of the story of a play or opera |
US9904255B2 (en) * | 2014-09-19 | 2018-02-27 | Htc Corporation | Wearable electronic device and event-intimating method of the same |
TWI520002B (en) * | 2014-10-21 | 2016-02-01 | Protection Method and System of Cloud Virtual Network Security | |
US10154129B2 (en) * | 2015-05-15 | 2018-12-11 | Polar Electro Oy | Wearable electronic apparatus |
-
2017
- 2017-04-13 TW TW106112349A patent/TWI644235B/en active
- 2017-09-29 CN CN201710908255.1A patent/CN107818595A/en active Pending
Cited By (5)
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US10928927B2 (en) | 2018-12-28 | 2021-02-23 | Aten International Co., Ltd. | Video interactive system |
TWI744589B (en) * | 2018-12-28 | 2021-11-01 | 宏正自動科技股份有限公司 | Video interactive system |
CN113029190A (en) * | 2019-12-09 | 2021-06-25 | 未来市股份有限公司 | Motion tracking system and method |
TWI839214B (en) * | 2023-04-10 | 2024-04-11 | 宏達國際電子股份有限公司 | Hand-free haptic feedback system and method |
US11983321B1 (en) | 2023-04-10 | 2024-05-14 | Htc Corporation | Hand-free haptic feedback system and method |
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TWI644235B (en) | 2018-12-11 |
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