TW201437843A - Personal parameters automatic synchronizing system for and related devices - Google Patents
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Abstract
Description
本發明有關個人化參數自動同步系統,尤指一種可在多個電子裝置間自動對使用者的個人化操作參數進行同步處理的系統與相關裝置。The invention relates to a personalization parameter automatic synchronization system, in particular to a system and related device that can automatically synchronize the user's personalized operation parameters between a plurality of electronic devices.
在日常生活中,一般使用者經常會在不同環境中使用各種類型的不同電子裝置。例如,使用者在家中、車上、辦公室等不同環境中可能都會使用音響、空調系統、電腦、照明系統、導航裝置等電子裝置。使用者可以依據自己的喜好,設定各電子裝置的操作參數,例如,空調溫度、音量高低、預設的音樂播放清單、亮度大小、預定路線的導航參數、預定位置的衛星定位座標等等。In daily life, the average user often uses various types of different electronic devices in different environments. For example, users may use electronic devices such as audio, air conditioning systems, computers, lighting systems, and navigation devices in different environments, such as at home, in the car, and in the office. The user can set operating parameters of each electronic device according to his own preferences, such as air conditioning temperature, volume level, preset music play list, brightness level, navigation parameters of the predetermined route, satellite positioning coordinates of the predetermined position, and the like.
然而,現有技術中並沒有適當的工具可供使用者快速、方便地在多個電子裝置間,進行個人化操作參數的同步處理。因此,即便使用者要為不同的電子裝置設置相同的操作參數,使用者還是必須逐一手動地為不同的電子裝置分別設定操作參數,這顯然是非常耗時、沒有效率的參數設定方式。However, there is no suitable tool in the prior art for the user to quickly and conveniently synchronize the personalized operating parameters between multiple electronic devices. Therefore, even if the user wants to set the same operating parameters for different electronic devices, the user must manually set the operating parameters for different electronic devices one by one, which is obviously a very time-consuming and inefficient parameter setting method.
此外,有些電子裝置可利用遙控器來進行操作參數的設置,但現有電子裝置的遙控器多半是利用具有指向性(directional)的紅外線來傳輸控制信號。因此,使用者必需將遙控器的信號發射端對準電子裝置的接收端才能操控電子裝置的運作及設置電子裝置的操作參數。這樣的操作參數設置方式侷限了使用者和電子裝置間的相對位置。再者,當前述電子裝置的遙控器遺失或損壞時,便可能導致使用者無法調整電子裝置的操作參數的情況。In addition, some electronic devices can use the remote controller to set the operating parameters, but the remote controllers of the existing electronic devices mostly use directional infrared rays to transmit control signals. Therefore, the user must align the signal transmitting end of the remote controller with the receiving end of the electronic device to control the operation of the electronic device and set the operating parameters of the electronic device. Such an operation parameter setting method limits the relative position between the user and the electronic device. Moreover, when the remote controller of the electronic device is lost or damaged, the user may not be able to adjust the operating parameters of the electronic device.
有鑑於此,如何提供可在多個電子裝置間自動對使用者的個人化操作參數進行同步處理的系統,以提升電子裝置的參數設定效率,實為業界有待解決的問題。In view of this, how to provide a system that can automatically synchronize the user's personalized operating parameters between multiple electronic devices to improve the parameter setting efficiency of the electronic device is a problem to be solved in the industry.
本說明書提供一種個人化參數自動同步系統的實施例,其包含:一智慧型參數設定裝置,設置成顯示一參數設定畫面、依據一使用者的指示設置一或多筆個人化參數、以及採用一第一無線通信協定傳送該一或多筆個人化參數;一第一參數接收裝置,設置成採用該第一無線通信協定接收該一或多筆個人化參數,並依據該一或多筆個人化參數調整運作,或調整耦接於該第一參數接收裝置的一第一受控裝置的運作;以及一第二參數接收裝置,位於該第一參數接收裝置的一無線信號傳送範圍之外;其中,當該智慧型參數設定裝置偵測到該第二參數接收裝置時,該智慧型參數設定裝置會採用該第一無線通信協定將該一或多筆個人化參數傳送給該第二參數接收裝置,使得該第二參數接收裝置依據該智慧型參數設定裝置傳來的該一或多筆個人化參數調整運作,或調整耦接於該第二參數接收裝置的一第二受控裝置的運作;其中,該智慧型參數設定裝置還設置成採用該第一無線通信協定傳送一身分識別資料至該第二參數接收裝置,該第二參數接收裝置還設置成採用與該第一無線通信協定相異的一第二無線通信協定將該身分識別資料傳送至一無線廣域網路以進行一身分認證程序、接收該無線廣域網路傳來的一第一語音資料、以及採用該第一無線通信協定將該第一語音資料傳送給該智慧型參數設定裝置,使得該智慧型參數設定裝置播放該第二參數接收裝置傳來的該第一語音資料。The present specification provides an embodiment of a personalization parameter automatic synchronization system, comprising: a smart parameter setting device configured to display a parameter setting screen, set one or more personalization parameters according to a user's instruction, and adopt one Transmitting, by the first wireless communication protocol, the one or more personalization parameters; a first parameter receiving device configured to receive the one or more personalization parameters by using the first wireless communication protocol, and according to the one or more personalizations Parameter adjustment operation, or adjusting operation of a first controlled device coupled to the first parameter receiving device; and a second parameter receiving device located outside a wireless signal transmission range of the first parameter receiving device; When the smart parameter setting device detects the second parameter receiving device, the smart parameter setting device transmits the one or more personalization parameters to the second parameter receiving device by using the first wireless communication protocol. , causing the second parameter receiving device to adjust the operation according to the one or more personalized parameters transmitted by the smart parameter setting device, or An operation of a second controlled device coupled to the second parameter receiving device; wherein the smart parameter setting device is further configured to transmit an identity identification data to the second parameter receiving device by using the first wireless communication protocol The second parameter receiving device is further configured to transmit the identity identification data to a wireless wide area network by using a second wireless communication protocol different from the first wireless communication protocol to perform an identity authentication process, and receive the wireless wide area network. Transmitting a first voice data, and transmitting the first voice data to the smart parameter setting device by using the first wireless communication protocol, so that the smart parameter setting device plays the second parameter receiving device The first voice material.
本說明書另提供一種用於一個人化參數自動同步系統中的智慧型參數設定裝置的實施例。該個人化參數自動同步系統包含一第一參數接收裝置、一第二參數接收裝置、一第一受控裝置、以及一第二受控裝置,其中,該第一受控裝置耦接於該第一參數接收裝置,該第二受控裝置耦接於該第二參數接收裝置,且該第二參數接收裝置位於該第一參數接收裝置的一無線信號傳送範圍之外。該智慧型參數設定裝置包含:一螢幕,設置成顯示一參數設定畫面;一輸入裝置,設置成依據一使用者的指示產生相對應於該第一參數接收裝置的一或多筆個人化參數;一音訊裝置;一第一無線通信電路;一儲存裝置,設置成儲存該輸入裝置所產生的該一或多筆個人化參數;一身分認證裝置,設置成提供一身分識別資料;以及一第一處理電路,耦接於該螢幕、該輸入裝置、該音訊裝置、該第一無線通信電路、該儲存裝置、以及該身分認證裝置,設置成控制該第一無線通信電路採用一第一無線通信協定傳送該一或多筆個人化參數至該第一參數接收裝置,使得該第一參數接收裝置依據該一或多筆個人化參數調整運作,或調整該第一受控裝置的運作;其中,當該第一無線通信電路偵測到該第二參數接收裝置時,該第一處理電路會控制該第一無線通信電路採用該第一無線通信協定傳送該一或多筆個人化參數至該第二參數接收裝置,使得該第二參數接收裝置依據該一或多筆個人化參數調整運作,或調整該第二受控裝置的運作;其中,該第一處理電路還會控制該第一無線通信電路採用該第一無線通信協定傳送該身分識別資料至該第二參數接收裝置,並接收該第二參數接收裝置傳來的一第一語音資料,以及控制該音訊裝置播放該第一語音資料。The present specification further provides an embodiment of a smart parameter setting device for use in a humanized parameter automatic synchronization system. The personalization parameter automatic synchronization system includes a first parameter receiving device, a second parameter receiving device, a first controlled device, and a second controlled device, wherein the first controlled device is coupled to the first a parameter receiving device, the second controlled device is coupled to the second parameter receiving device, and the second parameter receiving device is located outside a wireless signal transmission range of the first parameter receiving device. The smart parameter setting device comprises: a screen configured to display a parameter setting screen; and an input device configured to generate one or more personalization parameters corresponding to the first parameter receiving device according to a user indication; An audio device; a first wireless communication circuit; a storage device configured to store the one or more personalization parameters generated by the input device; an identity authentication device configured to provide an identity identification data; and a first a processing circuit coupled to the screen, the input device, the audio device, the first wireless communication circuit, the storage device, and the identity authentication device, configured to control the first wireless communication circuit to adopt a first wireless communication protocol Transmitting the one or more personalization parameters to the first parameter receiving device, such that the first parameter receiving device adjusts operation according to the one or more personalization parameters, or adjusts operation of the first controlled device; When the first wireless communication circuit detects the second parameter receiving device, the first processing circuit controls the first wireless communication circuit Transmitting the one or more personalization parameters to the second parameter receiving device by using the first wireless communication protocol, so that the second parameter receiving device adjusts operation according to the one or more personalized parameters, or adjusts the second controlled The operation of the device; wherein the first processing circuit further controls the first wireless communication circuit to transmit the identity identification data to the second parameter receiving device by using the first wireless communication protocol, and receive the second parameter receiving device a first voice material, and controlling the audio device to play the first voice data.
本說明書另提供一種用於一個人化參數自動同步系統中的一第二參數接收裝置的實施例。該個人化參數自動同步系統包含一第一參數接收裝置、一智慧型參數設定裝置、一第一受控裝置、以及一第二受控裝置,該第一受控裝置耦接於該第一參數接收裝置,其中,該智慧型參數設定裝置會依據一使用者的指示產生相對應於該第一參數接收裝置的一或多筆個人化參數,並傳送該一或多筆個人化參數至該第一參數接收裝置,使得該第一參數接收裝置依據該一或多筆個人化參數調整該第一受控裝置的運作。該第二參數接收裝置包含:一第四無線通信電路;一第五無線通信電路;一第二控制介面,用於耦接該第二受控裝置;以及一第三處理電路,耦接於該第四無線通信電路、該第五無線通信電路、以及該第二控制介面;其中,該第二參數接收裝置位於該第一參數接收裝置的一無線信號傳送範圍之外,且當該第四無線通信電路偵測到該智慧型參數設定裝置時,該第四無線通信電路會採用一第一無線通信協定接收該智慧型參數設定裝置傳來的該一或多筆個人化參數,該第三處理電路會依據該第四無線通信電路接收到的該一或多筆個人化參數調整該第二受控裝置的運作;其中,當該第四無線通信電路接收到該智慧型參數設定裝置傳來的一身分識別資料時,該第三處理電路會控制該第五無線通信電路採用與該第一無線通信協定相異的一第二無線通信協定將該身分識別資料傳送至一無線廣域網路進行一身分認證程序,並接收該無線廣域網路傳來的一語音資料,該第三處理電路還會控制該第四無線通信電路採用該第一無線通信協定將該語音資料傳送至該智慧型參數設定裝置,使得該智慧型參數設定裝置播放該語音資料。The present specification further provides an embodiment of a second parameter receiving apparatus for use in a humanized parameter automatic synchronization system. The personalization parameter automatic synchronization system includes a first parameter receiving device, a smart parameter setting device, a first controlled device, and a second controlled device, the first controlled device being coupled to the first parameter a receiving device, wherein the smart parameter setting device generates one or more personalization parameters corresponding to the first parameter receiving device according to a user's instruction, and transmits the one or more personalization parameters to the first A parameter receiving device causes the first parameter receiving device to adjust the operation of the first controlled device according to the one or more personalization parameters. The second parameter receiving device includes: a fourth wireless communication circuit; a fifth wireless communication circuit; a second control interface for coupling the second controlled device; and a third processing circuit coupled to the a fourth wireless communication circuit, the fifth wireless communication circuit, and the second control interface; wherein the second parameter receiving device is located outside a wireless signal transmission range of the first parameter receiving device, and when the fourth wireless When the communication circuit detects the smart parameter setting device, the fourth wireless communication circuit receives the one or more personalization parameters transmitted by the smart parameter setting device by using a first wireless communication protocol, and the third processing The circuit adjusts the operation of the second controlled device according to the one or more personalization parameters received by the fourth wireless communication circuit; wherein, when the fourth wireless communication circuit receives the smart parameter setting device, The third processing circuit controls the fifth wireless communication circuit to adopt a second wireless communication protocol different from the first wireless communication protocol when the identification data is identified The identification data is transmitted to a wireless wide area network for performing an identity authentication process, and receives a voice data transmitted from the wireless wide area network, and the third processing circuit further controls the fourth wireless communication circuit to adopt the first wireless communication protocol. The voice data is transmitted to the smart parameter setting device, so that the smart parameter setting device plays the voice data.
上述實施例的優點之一,是藉由智慧型參數設定裝置的運作,可快速、方便地在不同的參數接收裝置之間,自動完成使用者的個人化操作參數的同步處理。One of the advantages of the above embodiments is that the synchronization processing of the user's personalized operating parameters can be automatically and quickly performed between different parameter receiving devices by the operation of the intelligent parameter setting device.
上述實施例的另一優點,是可利用智慧型參數設定裝置和參數接收裝置的搭配,來實現行動電話的語音通話功能。Another advantage of the above embodiment is that the voice call function of the mobile phone can be realized by using the combination of the smart parameter setting device and the parameter receiving device.
本發明的其他優點將藉由以下的說明和圖式進行更詳細的解說。Other advantages of the invention will be explained in more detail by the following description and drawings.
100...個人化參數自動同步系統100. . . Personalized parameter automatic synchronization system
110...智慧型參數設定裝置110. . . Intelligent parameter setting device
111...螢幕111. . . Screen
112...輸入裝置112. . . Input device
113...音訊裝置113. . . Audio device
114...第一無線通信電路114. . . First wireless communication circuit
115...儲存裝置115. . . Storage device
116...身分認證裝置116. . . Identity authentication device
117、127、137...處理電路117, 127, 137. . . Processing circuit
118、129、139...電池118, 129, 139. . . battery
120、130...參數接收裝置120, 130. . . Parameter receiving device
121...第二無線通信電路121. . . Second wireless communication circuit
123...第三無線通信電路123. . . Third wireless communication circuit
125、135...控制介面125, 135. . . Control interface
131...第四無線通信電路131. . . Fourth wireless communication circuit
133...第五無線通信電路133. . . Fifth wireless communication circuit
140...無線廣域網路140. . . Wireless wide area network
150、160...受控裝置150, 160. . . Controlled device
202~220、302~320、402~422、502~522、602~614、702~714...方法流程202~220, 302~320, 402~422, 502~522, 602~614, 702~714. . . Method flow
圖1為本發明一實施例的個人化參數自動同步系統簡化後的功能方塊圖。FIG. 1 is a simplified functional block diagram of a personalization parameter automatic synchronization system according to an embodiment of the present invention.
圖2和圖3為圖1中的個人化參數自動同步系統進行個人化參數同步處理的方法的一實施例簡化後的流程圖。2 and FIG. 3 are simplified flowcharts of an embodiment of a method for performing personalized parameter synchronization processing in the personalized parameter automatic synchronization system of FIG. 1.
圖4和圖5為圖1中的個人化參數自動同步系統透過無線廣域網路進行語音通話的方法的一實施例簡化後的流程圖。4 and FIG. 5 are simplified flow charts of an embodiment of the method for making a voice call over the wireless wide area network by the personalized parameter automatic synchronization system of FIG.
圖6和圖7為圖1中的個人化參數自動同步系統所採用的分離式運算方法的一實施例簡化後的流程圖。6 and FIG. 7 are simplified flowcharts of an embodiment of a separate operation method employed in the personalized parameter automatic synchronization system of FIG. 1.
以下將配合相關圖式來說明本發明的實施例。在圖式中,相同的標號表示相同或類似的元件或流程步驟。Embodiments of the present invention will be described below in conjunction with the associated drawings. In the drawings, the same reference numerals are used to refer to the same or similar elements or process steps.
圖1為本發明一實施例的個人化參數自動同步系統(personal parameters automatic synchronizing system)100簡化後的功能方塊圖。個人化參數自動同步系統100包含一智慧型參數設定裝置(smart parameter setting device)110、多個參數接收裝置(parameter receiving device)、以及多個受控裝置(controlled device)。前述多個參數接收裝置位於彼此的無線信號傳送範圍之外,因此,各參數接收裝置間不能直接進行無線通信。在個人化參數自動同步系統100中,智慧型參數設定裝置110扮演前述多個參數接收裝置間的操作參數同步媒介。1 is a simplified functional block diagram of a personal parameter automatic synchronizing system 100 according to an embodiment of the present invention. The personalization parameter automatic synchronization system 100 includes a smart parameter setting device 110, a plurality of parameter receiving devices, and a plurality of controlled devices. The plurality of parameter receiving devices are located outside the wireless signal transmission range of each other, and therefore, wireless communication cannot be directly performed between the parameter receiving devices. In the personalization parameter automatic synchronization system 100, the smart parameter setting device 110 plays an operation parameter synchronization medium between the plurality of parameter receiving devices.
為了便於說明,圖1中繪示了第一參數接收裝置120、第二參數接收裝置130、第一受控裝置150、以及第二受控裝置160為例。第一受控裝置150耦接於第一參數接收裝置120,而第二受控裝置160則耦接於第二參數接收裝置130。在實際應用上,第一參數接收裝置120和第二參數接收裝置130通常位於不同地點。例如,第一參數接收裝置120可設置於使用者的車上、第二參數接收裝置130可設置於使用者的辦公室、而智慧型參數設定裝置110則可由使用者隨身攜帶。For convenience of description, the first parameter receiving device 120, the second parameter receiving device 130, the first controlled device 150, and the second controlled device 160 are illustrated in FIG. 1 as an example. The first controlled device 150 is coupled to the first parameter receiving device 120 , and the second controlled device 160 is coupled to the second parameter receiving device 130 . In practical applications, the first parameter receiving device 120 and the second parameter receiving device 130 are typically located at different locations. For example, the first parameter receiving device 120 can be disposed on the user's vehicle, the second parameter receiving device 130 can be disposed in the user's office, and the smart parameter setting device 110 can be carried by the user.
智慧型參數設定裝置110設置成顯示一參數設定畫面、依據使用者的指示設置相對應於第一參數接收裝置120的一或多筆個人化參數、以及採用第一無線通信協定傳送一或多筆個人化參數。第一參數接收裝置120設置成採用第一無線通信協定接收智慧型參數設定裝置110傳來的該一或多筆個人化參數,並依據該一或多筆個人化參數調整運作,或調整耦接的第一受控裝置150的運作。如前所述,第二參數接收裝置130位於第一參數接收裝置120的無線信號傳送範圍之外,故第一參數接收裝置120無法直接將接收到的該一或多筆個人化參數傳送給第二參數接收裝置130。當智慧型參數設定裝置110移動到其他地點並偵測到第二參數接收裝置130時,智慧型參數設定裝置110會採用第一無線通信協定將相對應於第一參數接收裝置120的該一或多筆個人化參數傳送給第二參數接收裝置130,使得第二參數接收裝置130依據智慧型參數設定裝置110傳來的該一或多筆個人化參數調整運作,或調整耦接的第二受控裝置160的運作。The smart parameter setting device 110 is configured to display a parameter setting screen, set one or more personalization parameters corresponding to the first parameter receiving device 120 according to the user's instruction, and transmit one or more pens by using the first wireless communication protocol. Personalized parameters. The first parameter receiving device 120 is configured to receive the one or more personalization parameters sent by the smart parameter setting device 110 by using the first wireless communication protocol, and adjust the operation according to the one or more personalized parameters, or adjust the coupling. The operation of the first controlled device 150. As described above, the second parameter receiving device 130 is located outside the wireless signal transmission range of the first parameter receiving device 120, so the first parameter receiving device 120 cannot directly transmit the received one or more personalized parameters to the first parameter receiving device 120. The two parameter receiving device 130. When the smart parameter setting device 110 moves to another location and detects the second parameter receiving device 130, the smart parameter setting device 110 uses the first wireless communication protocol to correspond to the one of the first parameter receiving devices 120. The plurality of personalization parameters are transmitted to the second parameter receiving device 130, so that the second parameter receiving device 130 adjusts the operation according to the one or more personalized parameters transmitted by the smart parameter setting device 110, or adjusts the coupled second receiving The operation of the control device 160.
另外,智慧型參數設定裝置110還設置成採用第一無線通信協定傳送一身分識別資料至第二參數接收裝置130。第二參數接收裝置130還設置成採用與第一無線通信協定相異的第二無線通信協定將接收到的身分識別資料傳送至無線廣域網路140以進行一身分認證程序。當第二參數接收裝置130通過該身分認證程序時,第二參數接收裝置130會接收無線廣域網路140傳來的語音資料,以及採用第一無線通信協定將該語音資料傳送給智慧型參數設定裝置110,使得智慧型參數設定裝置110播放第二參數接收裝置130傳來的語音資料。In addition, the smart parameter setting device 110 is further configured to transmit an identity identification data to the second parameter receiving device 130 using the first wireless communication protocol. The second parameter receiving device 130 is further configured to transmit the received identity identification data to the wireless wide area network 140 using a second wireless communication protocol different from the first wireless communication protocol to perform an identity authentication procedure. When the second parameter receiving device 130 passes the identity authentication program, the second parameter receiving device 130 receives the voice data transmitted from the wireless wide area network 140, and transmits the voice data to the smart parameter setting device by using the first wireless communication protocol. 110, causing the smart parameter setting device 110 to play the voice data transmitted by the second parameter receiving device 130.
實作上,前述的第一無線通信協定可以是藍牙、WiFi、近場通信(near field communication,NFC)協定、IEEE 802.11系列協定、或其他適用於較短傳輸距離的通信協定。前述的第二無線通信協定則是適用於較長傳輸距離的通信協定,例如,2G、3G、4G、或是其他更先進的傳輸協定。In practice, the aforementioned first wireless communication protocol may be Bluetooth, WiFi, near field communication (NFC) protocol, IEEE 802.11 series protocol, or other communication protocol suitable for shorter transmission distances. The aforementioned second wireless communication protocol is a communication protocol suitable for a longer transmission distance, for example, 2G, 3G, 4G, or other more advanced transmission protocols.
在運作時,使用者可將智慧型參數設定裝置110隨身攜帶,並於第一參數接收裝置120所在的地點,對智慧型參數設定裝置110進行操作,以設定相對應於第一參數接收裝置120的一或多筆個人化參數。此時,智慧型參數設定裝置110會儲存該一或多筆個人化參數,並將該一或多筆個人化參數傳送至第一參數接收裝置120,以控制第一參數接收裝置120或第一受控裝置150的運作。之後,當使用者攜帶著智慧型參數設定裝置110移動到其他地點時,若智慧型參數設定裝置110偵測到第二參數接收裝置130的存在,則智慧型參數設定裝置110便會自動將該一或多筆個人化參數傳送給第二參數接收裝置130,以控制第二參數接收裝置130或第二受控裝置160的運作。因此,即便第二參數接收裝置130位於第一參數接收裝置120的無線信號傳送範圍之外,仍可藉由智慧型參數設定裝置110的運作,自動完成第二參數接收裝置130與第一參數接收裝置120間的操作參數同步處理。During operation, the user can carry the smart parameter setting device 110 with him, and operate the smart parameter setting device 110 at the location where the first parameter receiving device 120 is located to set the corresponding corresponding to the first parameter receiving device 120. One or more personalization parameters. At this time, the smart parameter setting device 110 stores the one or more personalization parameters, and transmits the one or more personalization parameters to the first parameter receiving device 120 to control the first parameter receiving device 120 or the first The operation of the controlled device 150. After the smart parameter setting device 110 detects the presence of the second parameter receiving device 130, the smart parameter setting device 110 automatically One or more personalization parameters are transmitted to the second parameter receiving device 130 to control the operation of the second parameter receiving device 130 or the second controlled device 160. Therefore, even if the second parameter receiving device 130 is located outside the wireless signal transmission range of the first parameter receiving device 120, the second parameter receiving device 130 and the first parameter receiving can be automatically completed by the operation of the smart parameter setting device 110. The operating parameters between the devices 120 are synchronized.
在圖1的實施例中,智慧型參數設定裝置110包含一螢幕111、一輸入裝置112、一音訊裝置113、一第一無線通信電路114、一儲存裝置115、一身分認證裝置116、一第一處理電路117、以及一第一電池118。第一參數接收裝置120包含一第二無線通信電路121、一第三無線通信電路123、一第一控制介面125、一第二處理電路127、以及一第二電池129。第二參數接收裝置130包含一第四無線通信電路131、一第五無線通信電路133、一第二控制介面135、一第三處理電路137、以及一第三電池139。In the embodiment of FIG. 1 , the smart parameter setting device 110 includes a screen 111 , an input device 112 , an audio device 113 , a first wireless communication circuit 114 , a storage device 115 , an identity authentication device 116 , and a first A processing circuit 117, and a first battery 118. The first parameter receiving device 120 includes a second wireless communication circuit 121, a third wireless communication circuit 123, a first control interface 125, a second processing circuit 127, and a second battery 129. The second parameter receiving device 130 includes a fourth wireless communication circuit 131, a fifth wireless communication circuit 133, a second control interface 135, a third processing circuit 137, and a third battery 139.
在智慧型參數設定裝置110中,螢幕111設置成顯示參數設定畫面,例如,參數設定選單或設定指引。輸入裝置112設置成依據使用者的指示產生一或多筆個人化參數。第一無線通信電路114設置成採用第一無線通信協定傳送該一或多筆個人化參數以及一身分識別資料。儲存裝置115設置成儲存輸入裝置112所產生的該一或多筆個人化參數。身分認證裝置116設置成提供前述的身分識別資料。在一實施例中,身分認證裝置116中設置有電信服務業者配發給個人化參數自動同步系統100的使用者的SIM卡未繪示,可提供前述的身分識別資料。第一處理電路117耦接於螢幕111、輸入裝置112、音訊裝置113、第一無線通信電路114、儲存裝置115、以及身分認證裝置116,並設置成控制螢幕111、輸入裝置112、音訊裝置113、第一無線通信電路114、儲存裝置115、以及身分認證裝置116的運作。例如,第一處理電路117可控制第一無線通信電路114採用第一無線通信協定傳送輸入裝置112所產生的該一或多筆個人化參數至第二無線通信電路121。第一電池118用於提供智慧型參數設定裝置110運作時所需的電力。實作上,螢幕111可以用傳統顯示螢幕來實現,也可以和輸入裝置112共同整合成一觸控螢幕。In the smart parameter setting device 110, the screen 111 is set to display a parameter setting screen, for example, a parameter setting menu or a setting guide. The input device 112 is arranged to generate one or more personalization parameters in accordance with the user's instructions. The first wireless communication circuit 114 is configured to transmit the one or more personalization parameters and an identity identification data using a first wireless communication protocol. The storage device 115 is configured to store the one or more personalization parameters generated by the input device 112. The identity authentication device 116 is arranged to provide the aforementioned identity identification material. In an embodiment, the SIM card of the user in the identity authentication device 116 that is provided by the telecommunication service provider to be distributed to the personalized parameter automatic synchronization system 100 is not shown, and the foregoing identity identification data may be provided. The first processing circuit 117 is coupled to the screen 111, the input device 112, the audio device 113, the first wireless communication circuit 114, the storage device 115, and the identity authentication device 116, and is configured to control the screen 111, the input device 112, and the audio device 113. The operation of the first wireless communication circuit 114, the storage device 115, and the identity authentication device 116. For example, the first processing circuit 117 can control the first wireless communication circuit 114 to transmit the one or more personalization parameters generated by the input device 112 to the second wireless communication circuit 121 using the first wireless communication protocol. The first battery 118 is used to provide the power required for the intelligent parameter setting device 110 to operate. In practice, the screen 111 can be implemented by a conventional display screen or integrated with the input device 112 to form a touch screen.
在第一參數接收裝置120中,第二無線通信電路121設置成採用第一無線通信協定接收第一無線通信電路114傳來的該一或多筆個人化參數。第三無線通信電路123設置成採用第二無線通信協定與無線廣域網路140進行通信。第一控制介面125用於耦接第一受控裝置150。第二處理電路127耦接於第二無線通信電路121、第三無線通信電路123、以及第一控制介面125,並設置成控制第二無線通信電路121、第三無線通信電路123、以及第一控制介面125的運作。例如,第二處理電路127可依據第一無線通信電路114傳來的該一或多筆個人化參數,透過第一控制介面125調整第一受控裝置150的運作。第二電池129用於提供第一參數接收裝置120運作時所需的電力。In the first parameter receiving device 120, the second wireless communication circuit 121 is configured to receive the one or more personalization parameters transmitted by the first wireless communication circuit 114 using the first wireless communication protocol. The third wireless communication circuit 123 is arranged to communicate with the wireless wide area network 140 using a second wireless communication protocol. The first control interface 125 is used to couple the first controlled device 150. The second processing circuit 127 is coupled to the second wireless communication circuit 121, the third wireless communication circuit 123, and the first control interface 125, and is configured to control the second wireless communication circuit 121, the third wireless communication circuit 123, and the first Control the operation of interface 125. For example, the second processing circuit 127 can adjust the operation of the first controlled device 150 through the first control interface 125 according to the one or more personalization parameters transmitted by the first wireless communication circuit 114. The second battery 129 is for providing power required when the first parameter receiving device 120 operates.
在第二參數接收裝置130中,第四無線通信電路131設置成採用第一無線通信協定接收第一無線通信電路114傳來的該一或多筆個人化參數及該身分識別資料。第二控制介面135用於耦接第二受控裝置160。第三處理電路137耦接於第四無線通信電路131、第五無線通信電路133、以及第二控制介面135,並設置成控制第四無線通信電路131、第五無線通信電路133、以及第二控制介面135的運作。例如,第三處理電路137可依據第四無線通信電路131接收到的該一或多筆個人化參數,透過第二控制介面135調整第二受控裝置160的運作。另外,第三處理電路137可控制第五無線通信電路133採用第二無線通信協定接收無線廣域網路140傳來的語音資料,並控制第四無線通信電路131採用第一無線通信協定將該語音資料傳送至第一無線通信電路114,使得第一處理電路117控制音訊裝置113播放第四無線通信電路131傳來的該語音資料。第三電池139則用於提供第二參數接收裝置130運作時所需的電力。In the second parameter receiving device 130, the fourth wireless communication circuit 131 is configured to receive the one or more personalization parameters and the identity identification data transmitted by the first wireless communication circuit 114 by using the first wireless communication protocol. The second control interface 135 is configured to couple the second controlled device 160. The third processing circuit 137 is coupled to the fourth wireless communication circuit 131, the fifth wireless communication circuit 133, and the second control interface 135, and is configured to control the fourth wireless communication circuit 131, the fifth wireless communication circuit 133, and the second Control the operation of interface 135. For example, the third processing circuit 137 can adjust the operation of the second controlled device 160 through the second control interface 135 according to the one or more personalized parameters received by the fourth wireless communication circuit 131. In addition, the third processing circuit 137 can control the fifth wireless communication circuit 133 to receive the voice data transmitted by the wireless wide area network 140 by using the second wireless communication protocol, and control the fourth wireless communication circuit 131 to use the first wireless communication protocol to use the voice data. The first wireless communication circuit 114 is transmitted to the first wireless communication circuit 114, so that the first processing circuit 117 controls the audio device 113 to play the voice data transmitted from the fourth wireless communication circuit 131. The third battery 139 is then used to provide the power required for the second parameter receiving device 130 to operate.
實作上,前述的第一處理電路117、第二處理電路127、和第三處理電路137皆可用一或多個處理器單元來實現。另外,前述的第一電池118、第二電池129、和第三電池139皆可用一或多個相連或分離的電池模塊來實現。In practice, the foregoing first processing circuit 117, second processing circuit 127, and third processing circuit 137 can all be implemented by one or more processor units. In addition, the aforementioned first battery 118, second battery 129, and third battery 139 can all be implemented by one or more connected or separated battery modules.
如圖1所示,智慧型參數設定裝置110、第一參數接收裝置120、和第二參數接收裝置130是分離的裝置,智慧型參數設定裝置110與第一參數接收裝置120間並無實體連接,且智慧型參數設定裝置110與第二參數接收裝置130間也沒有實體連接。在運作時,智慧型參數設定裝置110與第一參數接收裝置120會透過第一無線通信電路114和第二無線通信電路121以無線傳輸的方式來彼此通信,以實現智慧型參數設定裝置110與第一參數接收裝置120間的資料通信。當第一無線通信電路114偵測到第二參數接收裝置130的第四無線通信電路131時,第一處理電路117會控制第一無線通信電路114採用第一無線通信協定傳送儲存裝置115中所儲存的該一或多筆個人化參數至第四無線通信電路131。換言之,智慧型參數設定裝置110與第二參數接收裝置130會透過第一無線通信電路114和第四無線通信電路131以無線傳輸的方式來彼此通信。As shown in FIG. 1, the smart parameter setting device 110, the first parameter receiving device 120, and the second parameter receiving device 130 are separate devices, and the smart parameter setting device 110 and the first parameter receiving device 120 are not physically connected. And there is no physical connection between the smart parameter setting device 110 and the second parameter receiving device 130. In operation, the smart parameter setting device 110 and the first parameter receiving device 120 communicate with each other through the first wireless communication circuit 114 and the second wireless communication circuit 121 in a wireless transmission manner to implement the smart parameter setting device 110 and The first parameter receives data communication between the devices 120. When the first wireless communication circuit 114 detects the fourth wireless communication circuit 131 of the second parameter receiving device 130, the first processing circuit 117 controls the first wireless communication circuit 114 to use the first wireless communication protocol to transfer the storage device 115. The one or more personalization parameters are stored to the fourth wireless communication circuit 131. In other words, the smart parameter setting device 110 and the second parameter receiving device 130 communicate with each other through the first wireless communication circuit 114 and the fourth wireless communication circuit 131 in a wireless transmission manner.
此外,若使用者要利用智慧型參數設定裝置110和第二參數接收裝置130的搭配進行語音通話時,第一處理電路117可控制第一無線通信電路114採用第一無線通信協定傳送前述的身分識別資料至第四無線通信電路131。當第四無線通信電路131接收到第一無線通信電路114傳來的該身分識別資料時,第三處理電路137會控制第五無線通信電路133採用第二無線通信協定將該身分識別資料傳送至無線廣域網路140進行身分認證程序。當第二參數接收裝置130通過該身分認證程序時,第三處理電路137會控制第五無線通信電路133接收無線廣域網路140傳來的語音資料,並控制第四無線通信電路131採用第一無線通信協定將該語音資料傳送至第一無線通信電路114。In addition, if the user wants to make a voice call by using the combination of the smart parameter setting device 110 and the second parameter receiving device 130, the first processing circuit 117 can control the first wireless communication circuit 114 to transmit the foregoing identity by using the first wireless communication protocol. The data is identified to the fourth wireless communication circuit 131. When the fourth wireless communication circuit 131 receives the identity identification data transmitted by the first wireless communication circuit 114, the third processing circuit 137 controls the fifth wireless communication circuit 133 to transmit the identity identification data to the second wireless communication protocol to the second wireless communication circuit. The wireless wide area network 140 performs an identity authentication process. When the second parameter receiving device 130 passes the identity authentication program, the third processing circuit 137 controls the fifth wireless communication circuit 133 to receive the voice data transmitted from the wireless wide area network 140, and controls the fourth wireless communication circuit 131 to adopt the first wireless. The communication protocol transmits the voice material to the first wireless communication circuit 114.
由前述可知,第二參數接收裝置130中的第四無線通信電路131和第五無線通信電路133採用不同的通信協定且具有不同的用途。具體而言,第四無線通信電路131是用於與智慧型參數設定裝置110進行通信之用,而第五無線通信電路133則是用於與無線廣域網路140進行通信之用。As can be seen from the foregoing, the fourth wireless communication circuit 131 and the fifth wireless communication circuit 133 in the second parameter receiving device 130 employ different communication protocols and have different uses. Specifically, the fourth wireless communication circuit 131 is for communicating with the smart parameter setting device 110, and the fifth wireless communication circuit 133 is for communicating with the wireless wide area network 140.
在個人化參數自動同步系統100中,用來顯示影像畫面供使用者觀看的螢幕,是設置在智慧型參數設定裝置110上,第一參數接收裝置120和第二參數接收裝置130上則無需設置任何螢幕。因此,在不需降低第二電池129和第三電池139容量的情況下,便可大幅減少第一參數接收裝置120和第二參數接收裝置130的成本、體積、和重量,進而降低第一參數接收裝置120和第二參數接收裝置130的元件複雜度和製造複雜度,並提升第一參數接收裝置120和第二參數接收裝置130的製造良率。這樣的架構亦可使第一參數接收裝置120和第二參數接收裝置130的體積小於智慧型參數設定裝置110的體積,使得第一參數接收裝置120和第二參數接收裝置130的總表面積小於智慧型參數設定裝置110的總表面積,進而提升第一參數接收裝置120和第二參數接收裝置130的攜帶便利性。In the personalized parameter automatic synchronization system 100, a screen for displaying an image screen for the user to view is disposed on the smart parameter setting device 110, and the first parameter receiving device 120 and the second parameter receiving device 130 do not need to be set. Any screen. Therefore, without reducing the capacity of the second battery 129 and the third battery 139, the cost, volume, and weight of the first parameter receiving device 120 and the second parameter receiving device 130 can be greatly reduced, thereby reducing the first parameter. The component complexity and manufacturing complexity of the receiving device 120 and the second parameter receiving device 130 increase the manufacturing yield of the first parameter receiving device 120 and the second parameter receiving device 130. Such an architecture may also make the volume of the first parameter receiving device 120 and the second parameter receiving device 130 smaller than the volume of the smart parameter setting device 110, such that the total surface area of the first parameter receiving device 120 and the second parameter receiving device 130 is less than wisdom. The type parameter sets the total surface area of the device 110, which in turn increases the portability of the first parameter receiving device 120 and the second parameter receiving device 130.
另外,由於第一參數接收裝置120和第二參數接收裝置130上無需設置任何螢幕,故可有效降低第一參數接收裝置120和第二參數接收裝置130上則無需設置任何螢幕的耗電量,進而延長第一參數接收裝置120和第二參數接收裝置130上則無需設置任何螢幕的使用時間和待機時間。In addition, since there is no need to set any screen on the first parameter receiving device 120 and the second parameter receiving device 130, the power consumption of the first parameter receiving device 120 and the second parameter receiving device 130 without setting any screen can be effectively reduced. Further extending the first parameter receiving device 120 and the second parameter receiving device 130 eliminates the need to set any screen usage time and standby time.
實作上,如有需要也可在第一參數接收裝置120或第二參數接收裝置130上裝設用來指示第一參數接收裝置120或第二參數接收裝置130的運作狀態或電力狀態的簡易指示燈(例如LED燈,圖中未繪示),或是裝設尺寸較小、耗電量較少的簡單螢幕,以節省第一參數接收裝置120和第二參數接收裝置130的電力消耗。In practice, the first parameter receiving device 120 or the second parameter receiving device 130 can be installed on the first parameter receiving device 120 or the second parameter receiving device 130 to indicate the operating state or power state of the first parameter receiving device 120 or the second parameter receiving device 130. An indicator light (such as an LED light, not shown) or a simple screen with a small size and low power consumption is used to save power consumption of the first parameter receiving device 120 and the second parameter receiving device 130.
以下將搭配圖2和圖7來進一步說明個人化參數自動同步系統100的運作方式。The operation of the personalized parameter automatic synchronization system 100 will be further described below in conjunction with FIGS. 2 and 7.
圖2為個人化參數自動同步系統100進行個人化參數同步處理的方法的一實施例簡化後的流程圖。在後續的各流程圖中,位於一特定裝置所屬欄位中的流程,即代表由該特定裝置所進行的流程。例如,標記為「智慧型參數設定裝置」的欄位中的部分,代表智慧型參數設定裝置110所進行的流程,標記為「第一參數接收裝置」的欄位中的部分,代表第一參數接收裝置120所進行的流程,標記為「第二參數接收裝置」的欄位中的部分,代表第二參數接收裝置130所進行的流程,標記為「無線廣域網路」的欄位中的部分,則代表無線廣域網路140所進行的流程。FIG. 2 is a simplified flowchart of an embodiment of a method for personalizing parameter synchronization processing by the personalized parameter automatic synchronization system 100. In the subsequent flowcharts, the flow located in the field to which a particular device belongs is representative of the flow performed by the particular device. For example, the portion in the field labeled "Smart Parameter Setting Device" represents the flow performed by the smart parameter setting device 110, and the portion marked in the field of the "first parameter receiving device" represents the first parameter. The flow performed by the receiving device 120, the portion marked as the "second parameter receiving device", represents the flow performed by the second parameter receiving device 130, and is marked as a portion of the field of the "wireless wide area network". It represents the flow performed by the wireless wide area network 140.
當第一參數接收裝置120位於智慧型參數設定裝置110的無線信號傳送範圍之內,且使用者要利用智慧型參數設定裝置110來設定第一參數接收裝置120的個人化參數時,智慧型參數設定裝置110會進行流程202。When the first parameter receiving device 120 is located within the wireless signal transmission range of the smart parameter setting device 110, and the user wants to use the smart parameter setting device 110 to set the personalized parameter of the first parameter receiving device 120, the smart parameter The setting device 110 performs the flow 202.
在流程202中,第一處理電路117會以控制螢幕111顯示一參數設定畫面,例如,一參數設定選單或一設定指引影像。In the process 202, the first processing circuit 117 displays a parameter setting screen, for example, a parameter setting menu or a setting guiding image, on the control screen 111.
接著,使用者可依據自己的喜好和螢幕111所顯示的參數設定畫面的引導,對智慧型參數設定裝置110的輸入裝置112進行操作以下達參數設定指令。在一實施例中,輸入裝置112是用一聲控裝置來實現。在此情況下,使用者可用語音輸入方式對輸入裝置112下達參數設定指示。在另一實施例中,螢幕111和輸入裝置112則是共同整合成一觸控螢幕。在此情況下,使用者可在該觸控螢幕上進行點擊,以下達參數設定指示。Next, the user can operate the input device 112 of the smart parameter setting device 110 to operate the following parameter setting command according to the preferences of the user and the parameter setting screen displayed on the screen 111. In one embodiment, the input device 112 is implemented with a voice control device. In this case, the user can give a parameter setting indication to the input device 112 by voice input. In another embodiment, the screen 111 and the input device 112 are integrated into a touch screen. In this case, the user can click on the touch screen, and the parameter setting instruction is reached below.
此時,輸入裝置112會進行流程204,依據使用者下達的指示產生一或多筆個人化參數。實作上,前述的個人化參數可以是特定裝置的操作參數,例如,空調溫度、車輛座椅的高度、後照鏡擺設角度、音量高低、預設的音樂播放清單、亮度大小、預定路線的導航參數、預定位置的衛星定位座標等等。At this point, the input device 112 proceeds to flow 204 to generate one or more personalization parameters based on the instructions issued by the user. In practice, the aforementioned personalization parameter may be an operation parameter of a specific device, for example, air conditioning temperature, height of a vehicle seat, a rear view mirror angle, a volume level, a preset music playlist, a brightness level, a predetermined route. Navigation parameters, satellite positioning coordinates of the predetermined location, and the like.
在流程206中,第一處理電路117會將輸入裝置112產生的該一或多筆個人化參數,儲存在儲存裝置115中。In flow 206, the first processing circuit 117 stores the one or more personalization parameters generated by the input device 112 in the storage device 115.
在流程208中,第一處理電路117會利用第一無線通信電路114採用前述的第一無線通信協定將該一或多筆個人化參數傳送至第一參數接收裝置120的第二無線通信電路121。In the process 208, the first processing circuit 117 transmits the one or more personalization parameters to the second wireless communication circuit 121 of the first parameter receiving device 120 by using the first wireless communication protocol 114 by using the first wireless communication circuit 114. .
在流程210中,第二無線通信電路121會接收第一無線通信電路114傳來的該一或多筆個人化參數。In the process 210, the second wireless communication circuit 121 receives the one or more personalization parameters transmitted by the first wireless communication circuit 114.
在流程212中,第二處理電路127可依據第一無線通信電路114傳來的該一或多筆個人化參數,調整第一參數接收裝置120的運作,或是依據該一或多筆個人化參數透過第一控制介面125調整第一受控裝置150的運作。In the process 212, the second processing circuit 127 may adjust the operation of the first parameter receiving device 120 according to the one or more personalization parameters transmitted by the first wireless communication circuit 114, or according to the one or more personalizations. The parameters adjust the operation of the first controlled device 150 through the first control interface 125.
如前所述,使用者可攜帶著智慧型參數設定裝置110移動到其他地點。在一實施例中,智慧型參數設定裝置110可在無需使用者介入操作的情況下,間歇性地或週期性地自動進行流程214。在另一實施例中,智慧型參數設定裝置110則可於使用者下達啟動指令時,才進行流程214。As previously mentioned, the user can carry the smart parameter setting device 110 to other locations. In an embodiment, the smart parameter setting device 110 can automatically perform the flow 214 intermittently or periodically without user intervention. In another embodiment, the smart parameter setting device 110 can perform the process 214 only when the user issues a start command.
在流程214中,第一處理電路117會利用第一無線通信電路114進行偵測,以判斷在第一無線通信電路114的無線信號傳送範圍之內,是否有其他參數接收裝置存在。當第一無線通信電路114偵測到另一參數接收裝置時,第一處理電路117便會進行流程216,自動利用第一無線通信電路114採用第一無線通信協定將該一或多筆個人化參數傳送給新偵測到的參數接收裝置。In the process 214, the first processing circuit 117 performs detection using the first wireless communication circuit 114 to determine whether other parameter receiving devices exist within the wireless signal transmission range of the first wireless communication circuit 114. When the first wireless communication circuit 114 detects another parameter receiving device, the first processing circuit 117 performs a flow 216 to automatically personalize the one or more personalities by using the first wireless communication circuit 114 using the first wireless communication protocol. The parameters are passed to the newly detected parameter receiving device.
為了後續說明上的方便,在此假設在前述的流程214中,第一無線通信電路114偵測到第二參數接收裝置130位於第一無線通信電路114當時的無線信號傳送範圍之內。因此,第一處理電路117會於流程216中利用第一無線通信電路114採用前述的第一無線通信協定,將儲存裝置115中所儲存的該一或多筆個人化參數傳送至第四無線通信電路131。亦即,第一處理電路117會利用第一無線通信電路114將相對於第一參數接收裝置120的該一或多筆個人化參數傳送至第二參數接收裝置130。For the convenience of the subsequent description, it is assumed here that in the foregoing flow 214, the first wireless communication circuit 114 detects that the second parameter receiving device 130 is located within the wireless signal transmission range of the first wireless communication circuit 114 at that time. Therefore, the first processing circuit 117 transmits the one or more personalization parameters stored in the storage device 115 to the fourth wireless communication by using the first wireless communication protocol in the first wireless communication circuit 114 in the flow 216. Circuit 131. That is, the first processing circuit 117 transmits the one or more personalization parameters relative to the first parameter receiving device 120 to the second parameter receiving device 130 using the first wireless communication circuit 114.
在流程218中,第四無線通信電路131會接收第一無線通信電路114傳來的該一或多筆個人化參數。In the process 218, the fourth wireless communication circuit 131 receives the one or more personalization parameters transmitted by the first wireless communication circuit 114.
在流程220中,第三處理電路137可依據第一無線通信電路114傳來的該一或多筆個人化參數,調整第二參數接收裝置130的運作,或是依據該一或多筆個人化參數透過第二控制介面135調整第二受控裝置160的運作。In the process 220, the third processing circuit 137 may adjust the operation of the second parameter receiving device 130 according to the one or more personalization parameters transmitted by the first wireless communication circuit 114, or according to the one or more personalizations. The parameter adjusts the operation of the second controlled device 160 through the second control interface 135.
前述的第一受控裝置150和第二受控裝置160可以是各種可調整操作參數的設備,例如,空調系統、車輛電子控制系統、音響、照明系統、電腦、導航裝置、或是智慧型家電等等。實作上,也可將第一參數接收裝置120整合在第一受控裝置150中,以成為第一受控裝置150的控制電路的一部分。另外,也可將第二參數接收裝置130整合在第二受控裝置160中,以成為第二受控裝置160的控制電路的一部分。The aforementioned first controlled device 150 and second controlled device 160 may be various devices that can adjust operating parameters, such as an air conditioning system, a vehicle electronic control system, an audio, a lighting system, a computer, a navigation device, or a smart home appliance. and many more. In practice, the first parameter receiving device 120 can also be integrated in the first controlled device 150 to become part of the control circuit of the first controlled device 150. In addition, the second parameter receiving device 130 may also be integrated in the second controlled device 160 to become part of the control circuit of the second controlled device 160.
由前述說明可知,即便第二參數接收裝置130位於第一參數接收裝置120的無線信號傳送範圍之外,導致第一參數接收裝置120無法將使用者設定的個人化參數直接傳送給第二參數接收裝置130,仍可藉由智慧型參數設定裝置110的運作,將第一參數接收裝置120的個人化參數自動同步到第二參數接收裝置130中。藉此,便可快速、方便地在多個參數接收裝置之間,自動完成使用者的個人化操作參數的同步處理。It can be seen from the foregoing description that even if the second parameter receiving device 130 is located outside the wireless signal transmission range of the first parameter receiving device 120, the first parameter receiving device 120 cannot directly transmit the personalized parameter set by the user to the second parameter receiving. The device 130 can still automatically synchronize the personalized parameters of the first parameter receiving device 120 to the second parameter receiving device 130 by the operation of the smart parameter setting device 110. Thereby, the synchronization processing of the user's personalized operation parameters can be automatically completed between the plurality of parameter receiving devices quickly and conveniently.
使用者對於各種裝置的操作參數的喜好設定,可儲存在智慧型參數設定裝置110中,並由使用者隨身攜帶。一旦使用者到達的地點中有相容的參數接收裝置存在,智慧型參數設定裝置110便可將使用者的個人化參數,自動傳送到該參數接收裝置中,使得該參數接收裝置或與該參數接收裝置耦接的其他電子裝置,能自動依照使用者的喜好來進行運作。因此,使用者便無需逐一手動地為不同的參數接收裝置分別設定操作參數,可大幅提升各項設備的操作便利性和有效節省時間。The user's preferences for the operating parameters of the various devices can be stored in the smart parameter setting device 110 and carried by the user. Once there is a compatible parameter receiving device in the place where the user arrives, the smart parameter setting device 110 can automatically transmit the user's personalized parameter to the parameter receiving device, so that the parameter receiving device or the parameter Other electronic devices coupled to the receiving device can automatically operate according to the preferences of the user. Therefore, the user does not need to manually set the operation parameters for different parameter receiving devices one by one, which can greatly improve the operation convenience of each device and save time.
在一實施例中,前述的第一無線通信電路114、第二無線通信電路121、以及第四無線通信電路131都是使用全向性(omni-directional)天線的架構來傳送和接收信號。因此,使用者無需將智慧型參數設定裝置110的信號發射端對準前揭第一參數接收裝置120或第二參數接收裝置130的接收端,亦能操控第一參數接收裝置120或第二參數接收裝置130的操作參數,使得使用者和參數接收裝置之間的相對位置不在受到侷限,進而提升使用上的便利性。In an embodiment, the aforementioned first wireless communication circuit 114, second wireless communication circuit 121, and fourth wireless communication circuit 131 are both transmitting and receiving signals using an architecture of an omni-directional antenna. Therefore, the user does not need to align the signal transmitting end of the smart parameter setting device 110 with the receiving end of the first parameter receiving device 120 or the second parameter receiving device 130, and can also manipulate the first parameter receiving device 120 or the second parameter. The operating parameters of the receiving device 130 are such that the relative position between the user and the parameter receiving device is not limited, thereby improving the convenience of use.
再者,由於智慧型參數設定裝置110可取代第一參數接收裝置120和第二參數接收裝置130的遙控器的功能,因此,即使代第一參數接收裝置120和第二參數接收裝置130的遙控器遺失或損壞時,使用者仍可透過智慧型參數設定裝置110調整第一參數接收裝置120和第二參數接收裝置130的操作參數。Furthermore, since the smart parameter setting device 110 can replace the functions of the remote controllers of the first parameter receiving device 120 and the second parameter receiving device 130, even if the remote control of the first parameter receiving device 120 and the second parameter receiving device 130 is performed When the device is lost or damaged, the user can still adjust the operating parameters of the first parameter receiving device 120 and the second parameter receiving device 130 through the smart parameter setting device 110.
在第二參數接收裝置130和第二受控裝置160依據智慧型參數設定裝置110傳來的該一或多筆個人化參數進行運作的過程中,若使用者想要修改第二參數接收裝置130和第二受控裝置160的操作參數,則智慧型參數設定裝置110會進行圖3中的流程302。In the process in which the second parameter receiving device 130 and the second controlled device 160 operate according to the one or more personalized parameters transmitted by the smart parameter setting device 110, if the user wants to modify the second parameter receiving device 130 And the operating parameters of the second controlled device 160, the smart parameter setting device 110 performs the flow 302 in FIG.
在流程302中,第一處理電路117會以控制螢幕111顯示一參數設定畫面,例如,一參數設定選單或一設定指引影像。In the process 302, the first processing circuit 117 displays a parameter setting screen, for example, a parameter setting menu or a setting guiding image, on the control screen 111.
接著,使用者可依據自己的喜好和螢幕111所顯示的參數設定畫面的引導,對輸入裝置112進行操作以下達參數設定指令。在輸入裝置112是用一聲控裝置實現的實施例中,使用者可用語音輸入方式對輸入裝置112下達參數設定指示。在螢幕111和輸入裝置112共同整合成一觸控螢幕的實施例中,使用者可在該觸控螢幕上進行點擊,以下達參數設定指示。Then, the user can operate the input device 112 according to the preferences of the user and the parameter setting screen displayed on the screen 111. In an embodiment where the input device 112 is implemented with a voice control device, the user can give a parameter setting indication to the input device 112 by voice input. In an embodiment in which the screen 111 and the input device 112 are integrated into a touch screen, the user can click on the touch screen, and the parameter setting indication is followed.
此時,輸入裝置112會進行流程304,依據使用者下達的指示產生一或多筆修改後的個人化參數。實作上,前述修改後的個人化參數同樣是特定裝置的操作參數,例如,空調溫度、車輛座椅的高度、後照鏡擺設角度、音量高低、預設的音樂播放清單、亮度大小、預定路線的導航參數、預定位置的衛星定位座標等等。At this point, the input device 112 proceeds to flow 304 to generate one or more modified personalization parameters based on the instructions issued by the user. In practice, the modified personalization parameters are also operating parameters of a specific device, for example, air conditioning temperature, height of the vehicle seat, rear view mirror angle, volume level, preset music playlist, brightness size, reservation Navigation parameters of the route, satellite positioning coordinates of the predetermined location, and the like.
在流程306中,第一處理電路117會將輸入裝置112產生的該一或多筆修改後的個人化參數,儲存在儲存裝置115中。In flow 306, the first processing circuit 117 stores the one or more modified personalization parameters generated by the input device 112 in the storage device 115.
在流程308中,第一處理電路117會利用第一無線通信電路114採用前述的第一無線通信協定將該一或多筆修改後的個人化參數傳送至第二參數接收裝置130的第四無線通信電路131。In the process 308, the first processing circuit 117 transmits the one or more modified personalization parameters to the fourth wireless of the second parameter receiving device 130 by using the first wireless communication protocol 114 by the first wireless communication circuit 114. Communication circuit 131.
在流程310中,第四無線通信電路131會接收第一無線通信電路114傳來的該一或多筆修改後的個人化參數。In the process 310, the fourth wireless communication circuit 131 receives the one or more modified personalization parameters transmitted by the first wireless communication circuit 114.
在流程312中,第三處理電路137可依據第一無線通信電路114傳來的該一或多筆修改後的個人化參數,調整第二參數接收裝置130的運作,或是依據該一或多筆修改後的個人化參數透過第二控制介面135調整第二受控裝置160的運作。In the process 312, the third processing circuit 137 may adjust the operation of the second parameter receiving device 130 according to the one or more modified personalization parameters transmitted by the first wireless communication circuit 114, or according to the one or more The modified personalization parameter adjusts the operation of the second controlled device 160 through the second control interface 135.
如前所述,使用者可攜帶著智慧型參數設定裝置110移動到其他地點。在一實施例中,智慧型參數設定裝置110可在無需使用者介入操作的情況下,間歇性地或週期性地自動進行流程314。在另一實施例中,智慧型參數設定裝置110則可於使用者下達啟動指令時,才進行流程314。As previously mentioned, the user can carry the smart parameter setting device 110 to other locations. In an embodiment, the smart parameter setting device 110 can automatically perform the flow 314 intermittently or periodically without user intervention. In another embodiment, the smart parameter setting device 110 can perform the flow 314 only when the user issues a start command.
在流程314中,第一處理電路117會利用第一無線通信電路114進行偵測,以判斷在第一無線通信電路114的無線信號傳送範圍之內,是否有其他參數接收裝置存在。當第一無線通信電路114偵測到另一參數接收裝置時,第一處理電路117便會進行流程316,自動利用第一無線通信電路114採用第一無線通信協定將該一或多筆修改後的個人化參數傳送給新偵測到的參數接收裝置。In the process 314, the first processing circuit 117 performs detection using the first wireless communication circuit 114 to determine whether other parameter receiving devices exist within the wireless signal transmission range of the first wireless communication circuit 114. When the first wireless communication circuit 114 detects another parameter receiving device, the first processing circuit 117 performs a flow 316 to automatically modify the one or more segments by using the first wireless communication circuit 114 using the first wireless communication protocol. The personalization parameters are transmitted to the newly detected parameter receiving device.
為了後續說明上的方便,在此假設在前述的流程314中,第一無線通信電路114偵測到第一參數接收裝置120位於第一無線通信電路114當時的無線信號傳送範圍之內。因此,第一處理電路117會於流程316中利用第一無線通信電路114採用前述的第一無線通信協定,將儲存裝置115中所儲存的該一或多筆修改後的個人化參數傳送至第二無線通信電路121。亦即,第一處理電路117會利用第一無線通信電路114將相對於第二參數接收裝置130的該一或多筆修改後的個人化參數傳送至第一參數接收裝置120。For convenience of subsequent description, it is assumed herein that in the foregoing flow 314, the first wireless communication circuit 114 detects that the first parameter receiving device 120 is located within the wireless signal transmission range of the first wireless communication circuit 114 at that time. Therefore, the first processing circuit 117 transmits the one or more modified personalization parameters stored in the storage device 115 to the first wireless communication circuit 114 using the first wireless communication protocol described above in the process 316. Two wireless communication circuits 121. That is, the first processing circuit 117 transmits the one or more modified personalization parameters relative to the second parameter receiving device 130 to the first parameter receiving device 120 using the first wireless communication circuit 114.
在流程318中,第二無線通信電路121會接收第一無線通信電路114傳來的該一或多筆修改後的個人化參數。In the process 318, the second wireless communication circuit 121 receives the one or more modified personalization parameters transmitted by the first wireless communication circuit 114.
在流程320中,第二處理電路127可依據第一無線通信電路114傳來的該一或多筆修改後的個人化參數,調整第二參數接收裝置120的運作,或是依據該一或多筆修改後的個人化參數透過第一控制介面125調整第一受控裝置150的運作。In the process 320, the second processing circuit 127 may adjust the operation of the second parameter receiving device 120 according to the one or more modified personalization parameters transmitted by the first wireless communication circuit 114, or according to the one or more The modified personalization parameter adjusts the operation of the first controlled device 150 through the first control interface 125.
由前述說明可知,即便第一參數接收裝置120位於第二參數接收裝置130的無線信號傳送範圍之外,導致第二參數接收裝置130無法將修改後的個人化參數直接傳送給第一參數接收裝置120,仍可藉由智慧型參數設定裝置110的運作,將修改後的個人化參數自動同步到第一參數接收裝置120中。It can be seen from the foregoing description that even if the first parameter receiving device 120 is located outside the wireless signal transmission range of the second parameter receiving device 130, the second parameter receiving device 130 cannot directly transmit the modified personalized parameter to the first parameter receiving device. 120. The modified personalization parameters can still be automatically synchronized to the first parameter receiving device 120 by the operation of the smart parameter setting device 110.
換言之,智慧型參數設定裝置110可在多個參數接收裝置間進行反方向的個人化參數同步運作。In other words, the smart parameter setting device 110 can perform the synchronized operation of the personalized parameters in the reverse direction among the plurality of parameter receiving devices.
在個人化參數自動同步系統100中,智慧型參數設定裝置110的第一無線通信電路114不能直接與無線廣域網路140進行通信,所以單獨運作時無法實現行動電話的語音通話功能。另外,第二參數接收裝置130中並未設置身分認證裝置116,所以單獨運作時無法與無線廣域網路140進行身分認證,因此,也無法實現行動電話的語音通話功能。In the personalization parameter automatic synchronization system 100, the first wireless communication circuit 114 of the smart parameter setting device 110 cannot directly communicate with the wireless wide area network 140, so that the voice call function of the mobile phone cannot be realized when operating alone. Further, since the identity authentication device 116 is not provided in the second parameter receiving device 130, the identity authentication cannot be performed with the wireless wide area network 140 when operating alone, and therefore, the voice call function of the mobile phone cannot be realized.
然而,個人化參數自動同步系統100允許使用者利用智慧型參數設定裝置110和參數接收裝置的搭配,與遠端的一受話端裝置進行語音通話。以下將搭配圖4和圖5來進一步說明個人化參數自動同步系統100進行語音通話的運作方式。However, the personalized parameter automatic synchronization system 100 allows the user to make a voice call with a remote receiving device by using the combination of the smart parameter setting device 110 and the parameter receiving device. The operation mode of the voice call automatic synchronization system 100 for voice call will be further described below with reference to FIG. 4 and FIG. 5.
圖4和圖5為個人化參數自動同步系統100透過無線廣域網路140進行語音通話的方法的一實施例簡化後的流程圖。4 and 5 are simplified flow diagrams of an embodiment of a method for a personalized parameter automatic synchronization system 100 to make a voice call over a wireless wide area network 140.
當智慧型參數設定裝置110位於第四無線通信電路131的無線信號傳送範圍之內時,個人化參數自動同步系統100允許使用者利用智慧型參數設定裝置110和第二參數接收裝置130的搭配,來與遠端的受話端裝置進行語音通話。在運作時,使用者可對智慧型參數設定裝置110的輸入裝置112進行操作以下達撥號指令。在輸入裝置112是用一聲控裝置實現的實施例中,使用者可用語音輸入方式對輸入裝置112下達撥號指令。在螢幕111和輸入裝置112共同整合成一觸控螢幕的實施例中,使用者可在該觸控螢幕上進行點擊,以下達撥號指令。When the smart parameter setting device 110 is located within the wireless signal transmission range of the fourth wireless communication circuit 131, the personalized parameter automatic synchronization system 100 allows the user to utilize the combination of the smart parameter setting device 110 and the second parameter receiving device 130. To make a voice call with the remote receiving device. In operation, the user can operate the input device 112 of the smart parameter setting device 110 to operate the following dialing command. In an embodiment where the input device 112 is implemented with a voice control device, the user can place a dial command on the input device 112 by voice input. In an embodiment in which the screen 111 and the input device 112 are integrated into a touch screen, the user can click on the touch screen to obtain a dialing command.
此時,輸入裝置112會進行圖4中的流程402,接收使用者下達的撥號指令。另外,第一處理電路117還會於流程402中產生一相對應的第一撥號請求(call request)。At this time, the input device 112 performs the process 402 in FIG. 4 to receive the dialing command issued by the user. In addition, the first processing circuit 117 also generates a corresponding first call request in the process 402.
在流程404中,第一處理電路117會讀取身分認證裝置116中的SIM卡的資料,以取得一身分識別資料,並利用第一無線通信電路114採用第一無線通信協定,將身分識別資料和第一撥號請求傳送至第四無線通信電路131。In the process 404, the first processing circuit 117 reads the data of the SIM card in the identity authentication device 116 to obtain an identity identification data, and uses the first wireless communication circuit 114 to identify the identity data using the first wireless communication protocol. And the first dialing request is transmitted to the fourth wireless communication circuit 131.
在流程406中,第四無線通信電路131會接收第一無線通信電路114傳來的身分識別資料和第一撥號請求。In the process 406, the fourth wireless communication circuit 131 receives the identity identification data and the first dialing request transmitted by the first wireless communication circuit 114.
在流程408中,第三處理電路137會利用第五無線通信電路133採用前述的第二無線通信協定,將該身分識別資料和第一撥號請求傳送至無線廣域網路140以進行一身分認證程序。In the process 408, the third processing circuit 137 uses the fifth wireless communication circuit 133 to transmit the identity identification data and the first dialing request to the wireless wide area network 140 to perform an identity authentication procedure using the aforementioned second wireless communication protocol.
在第二參數接收裝置130通過了身分認證程序後,無線廣域網路140會進行流程410,傳送該受話端裝置產生的第一語音資料給第二參數接收裝置130。After the second parameter receiving device 130 passes the identity authentication process, the wireless wide area network 140 performs a process 410 of transmitting the first voice data generated by the terminating device to the second parameter receiving device 130.
在流程412中,第五無線通信電路133會接收無線廣域網路140傳來的第一語音資料。另外,第三處理電路137會於流程412中利用第四無線通信電路131採用第一無線通信協定,將第五無線通信電路133接收到的第一語音資料傳送至智慧型參數設定裝置110的第一無線通信電路114。In the process 412, the fifth wireless communication circuit 133 receives the first voice material transmitted from the wireless wide area network 140. In addition, the third processing circuit 137 transmits the first voice data received by the fifth wireless communication circuit 133 to the smart parameter setting device 110 by using the first wireless communication protocol by the fourth wireless communication circuit 131 in the flow 412. A wireless communication circuit 114.
在流程414中,第一處理電路117會利用第一無線通信電路114接收第四無線通信電路131傳來的第一語音資料。In the process 414, the first processing circuit 117 receives the first voice data transmitted by the fourth wireless communication circuit 131 by using the first wireless communication circuit 114.
在流程416中,第一處理電路117會利用音訊裝置113播放第四無線通信電路131傳來的第一語音資料的內容。In the process 416, the first processing circuit 117 plays the content of the first voice material transmitted by the fourth wireless communication circuit 131 by using the audio device 113.
當使用者對智慧型參數設定裝置110說話時,音訊裝置113會進行流程418,以產生相對應的第二語音資料。此時,第一處理電路117會利用第一無線通信電路114採用第一無線通信協定將第二語音資料傳送至第四無線通信電路131。When the user speaks to the smart parameter setting device 110, the audio device 113 performs a flow 418 to generate a corresponding second voice data. At this time, the first processing circuit 117 transmits the second voice data to the fourth wireless communication circuit 131 by using the first wireless communication circuit 114 using the first wireless communication protocol.
在流程420中,第四無線通信電路131會接收第一無線通信電路114傳來的第二語音資料。此時,第三處理電路137會利用第五無線通信電路133傳送第二語音資料給無線廣域網路140。In the process 420, the fourth wireless communication circuit 131 receives the second voice data transmitted by the first wireless communication circuit 114. At this time, the third processing circuit 137 transmits the second voice material to the wireless wide area network 140 by using the fifth wireless communication circuit 133.
在流程422中,無線廣域網路140會接收第五無線通信電路133傳來的第二語音資料,並傳遞給前述的受話端裝置。In the process 422, the wireless wide area network 140 receives the second voice data transmitted by the fifth wireless communication circuit 133 and transmits the second voice data to the aforementioned receiving terminal device.
由前述說明可知,採用前述圖4的方法,便能利用智慧型參數設定裝置110和第二參數接收裝置130兩者的搭配來實現行動電話的語音通話功能。As can be seen from the foregoing description, by using the method of FIG. 4 described above, the voice call function of the mobile phone can be realized by the combination of the smart parameter setting device 110 and the second parameter receiving device 130.
倘若使用者之後攜帶智慧型參數設定裝置110離開第四無線通信電路131的無線信號傳送範圍,並進入第二無線通信電路121的無線信號傳送範圍之內,則個人化參數自動同步系統100也允許使用者利用智慧型參數設定裝置110搭配第一參數接收裝置120來實現行動電話的通話功能。If the user then carries the smart parameter setting device 110 away from the wireless signal transmission range of the fourth wireless communication circuit 131 and enters the wireless signal transmission range of the second wireless communication circuit 121, the personalized parameter automatic synchronization system 100 also allows The user uses the smart parameter setting device 110 in conjunction with the first parameter receiving device 120 to implement the call function of the mobile phone.
例如,使用者可對智慧型參數設定裝置110的輸入裝置112進行操作以下達撥號指令。在輸入裝置112是用一聲控裝置實現的實施例中,使用者可用語音輸入方式對輸入裝置112下達撥號指令。在螢幕111和輸入裝置112共同整合成一觸控螢幕的實施例中,使用者可在該觸控螢幕上進行點擊,以下達撥號指令。For example, the user can operate the input device 112 of the smart parameter setting device 110 to operate the following dialing command. In an embodiment where the input device 112 is implemented with a voice control device, the user can place a dial command on the input device 112 by voice input. In an embodiment in which the screen 111 and the input device 112 are integrated into a touch screen, the user can click on the touch screen to obtain a dialing command.
此時,輸入裝置112會進行圖5中的流程502,接收使用者下達的撥號指令。另外,第二處理電路127還會於流程502中產生一相對應的第二撥號請求。At this time, the input device 112 performs the flow 502 in FIG. 5 to receive the dialing command issued by the user. In addition, the second processing circuit 127 also generates a corresponding second dialing request in the flow 502.
在流程504中,第一處理電路117會讀取身分認證裝置116中的SIM卡的資料,以取得身分識別資料,並利用第一無線通信電路114採用第一無線通信協定,將身分識別資料和第二撥號請求傳送至第二無線通信電路121。In the process 504, the first processing circuit 117 reads the data of the SIM card in the identity authentication device 116 to obtain the identity identification data, and uses the first wireless communication circuit 114 to use the first wireless communication protocol to identify the identity information and The second dialing request is transmitted to the second wireless communication circuit 121.
在流程506中,第二無線通信電路121會接收第一無線通信電路114傳來的身分識別資料和第二撥號請求。In the process 506, the second wireless communication circuit 121 receives the identity identification data and the second dialing request transmitted from the first wireless communication circuit 114.
在流程508中,第二處理電路127會利用第三無線通信電路123採用前述的第二無線通信協定,將該身分識別資料和第二撥號請求傳送至無線廣域網路140以進行一身分認證程序。In the process 508, the second processing circuit 127 uses the third wireless communication circuit 123 to transmit the identity identification data and the second dialing request to the wireless wide area network 140 to perform an identity authentication procedure using the aforementioned second wireless communication protocol.
在第一參數接收裝置120通過了身分認證程序後,無線廣域網路140會進行流程510,傳送該受話端裝置產生的第三語音資料給第一參數接收裝置120。After the first parameter receiving device 120 passes the identity authentication process, the wireless wide area network 140 performs a process 510 of transmitting the third voice data generated by the terminating device to the first parameter receiving device 120.
在流程512中,第三無線通信電路123會接收無線廣域網路140傳來的第三語音資料。另外,第二處理電路127會於流程512中利用第二無線通信電路121採用第一無線通信協定,將第三無線通信電路123接收到的第三語音資料傳送至智慧型參數設定裝置110的第一無線通信電路114。In the process 512, the third wireless communication circuit 123 receives the third voice data transmitted from the wireless wide area network 140. In addition, the second processing circuit 127 transmits the third voice data received by the third wireless communication circuit 123 to the smart parameter setting device 110 by using the first wireless communication protocol in the flow 512 by using the second wireless communication circuit 121. A wireless communication circuit 114.
在流程514中,第一處理電路117會利用第一無線通信電路114接收第二無線通信電路121傳來的第三語音資料。In the process 514, the first processing circuit 117 receives the third voice data transmitted by the second wireless communication circuit 121 by using the first wireless communication circuit 114.
在流程516中,第一處理電路117會利用音訊裝置113播放第二無線通信電路121傳來的第三語音資料的內容。In the process 516, the first processing circuit 117 plays the content of the third voice material transmitted by the second wireless communication circuit 121 by using the audio device 113.
當使用者對智慧型參數設定裝置110說話時,音訊裝置113會進行流程518,以產生相對應的第四語音資料。此時,第一處理電路117會利用第一無線通信電路114採用第一無線通信協定將第四語音資料傳送至第二無線通信電路121。When the user speaks to the smart parameter setting device 110, the audio device 113 performs a flow 518 to generate a corresponding fourth voice data. At this time, the first processing circuit 117 transmits the fourth voice data to the second wireless communication circuit 121 by using the first wireless communication circuit 114 using the first wireless communication protocol.
在流程520中,第二無線通信電路121會接收第一無線通信電路114傳來的第四語音資料。此時,第二處理電路127會利用第三無線通信電路123傳送第四語音資料給無線廣域網路140。In the process 520, the second wireless communication circuit 121 receives the fourth voice data transmitted by the first wireless communication circuit 114. At this time, the second processing circuit 127 transmits the fourth voice data to the wireless wide area network 140 by using the third wireless communication circuit 123.
在流程522中,無線廣域網路140會接收第三無線通信電路123傳來的第四語音資料,並傳遞給前述的受話端裝置。In the process 522, the wireless wide area network 140 receives the fourth voice data transmitted from the third wireless communication circuit 123 and transmits the fourth voice data to the aforementioned receiving terminal device.
因此,利用前述圖5的方法,便能利用智慧型參數設定裝置110和第一參數接收裝置120兩者的搭配來實現行動電話的語音通話功能。Therefore, by using the method of FIG. 5 described above, the voice call function of the mobile phone can be realized by using the combination of the smart parameter setting device 110 and the first parameter receiving device 120.
由前述說明可知,個人化參數自動同步系統100中的不同參數接收裝置,可以共用智慧型參數設定裝置110中的身分認證裝置116所提供的同一身分識別資料,來與無線廣域網路140進行身分認證程序。As can be seen from the foregoing description, the different parameter receiving devices in the personalized parameter automatic synchronization system 100 can share the same identity identification data provided by the identity authentication device 116 in the smart parameter setting device 110 to perform identity authentication with the wireless wide area network 140. program.
換言之,使用者只要隨身攜帶智慧型參數設定裝置110,便可隨時搭配所在位置附近的參數接收裝置實現行動電話的語音通話功能。In other words, the user can carry the voice call function of the mobile phone with the parameter receiving device near the location as long as the user carries the smart parameter setting device 110 with him or her.
此外,由於智慧型參數設定裝置110中無需設置用來與無線廣域網路140進行通信的無線通信電路,故可有效降低智慧型參數設定裝置110的元件複雜度和硬體成本,進而提升智慧型參數設定裝置110的製造良率和量產速度。In addition, since there is no need to provide a wireless communication circuit for communicating with the wireless wide area network 140 in the smart parameter setting device 110, the component complexity and hardware cost of the smart parameter setting device 110 can be effectively reduced, thereby improving the smart parameter. The manufacturing yield and mass production speed of the device 110 are set.
另一方面,由於各參數接收裝置中無需設置進行語音通話時所需的音訊裝置113和用來提供身分識別資料的身分認證裝置116,甚至無需設置接收播號指令所需的輸入裝置112和螢幕111,故可有效降低各參數接收裝置的元件複雜度,進而提升各參數接收裝置的製造良率和量產速度。On the other hand, since it is not necessary to set the audio device 113 required for the voice call and the identity authentication device 116 for providing the identity identification data in each parameter receiving device, it is not even necessary to set the input device 112 and the screen required for receiving the broadcast command. 111, so the component complexity of each parameter receiving device can be effectively reduced, thereby improving the manufacturing yield and mass production speed of each parameter receiving device.
在個人化參數自動同步系統100中,還可利用參數接收裝置來分攤智慧型參數設定裝置110的部分運算量,以降低智慧型參數設定裝置110所需進行的運算量,藉此降低智慧型參數設定裝置110的電力消耗。以下將搭配圖6和圖7來進一步說明個人化參數自動同步系統100採用的分離式運算方法。In the personalization parameter automatic synchronization system 100, the parameter receiving device can also be used to share the partial calculation amount of the smart parameter setting device 110, so as to reduce the amount of calculation required by the smart parameter setting device 110, thereby reducing the smart parameter. The power consumption of the device 110 is set. The separate arithmetic method employed by the personalized parameter automatic synchronization system 100 will be further described below in conjunction with FIGS. 6 and 7.
圖6和圖7為個人化參數自動同步系統100所採用的分離式運算方法的一實施例簡化後的流程圖。6 and 7 are simplified flow charts of an embodiment of a separate arithmetic method employed by the personalized parameter automatic synchronization system 100.
當使用者對智慧型參數設定裝置110進行操作時,若第一處理電路117需要處理一預定類型的一第一運算,且智慧型參數設定裝置110當時位於第二無線通信電路121的無線信號傳送範圍之內,則第一處理電路117可進行圖6中的流程602,以產生與該第一運算相對應的一第一運算請求(computing request)。實作上,該第一運算請求中可包含與該第一運算相對應的一或多個運算參數。When the user operates the smart parameter setting device 110, if the first processing circuit 117 needs to process a first type of a predetermined operation, and the smart parameter setting device 110 is located at the second wireless communication circuit 121, the wireless signal is transmitted. Within the scope, the first processing circuit 117 can perform the flow 602 of FIG. 6 to generate a first computing request corresponding to the first operation. In practice, the first operation request may include one or more operation parameters corresponding to the first operation.
在一實施例中,前述的第一運算是一預定類型的一第一繪圖運算(rendering operation)。在此情況下,第一處理電路117在流程602中會產生與該預定類型的第一繪圖運算相對應的一第一運算請求,且該第一運算請求中可包含與該預定類型的第一繪圖運算相對應的一或多個運算參數。例如,前述的第一繪圖運算可以是一3D繪圖運算,或是需要耗用超過一預定運算資源量的其他繪圖運算。In one embodiment, the aforementioned first operation is a first type of rendering operation of a predetermined type. In this case, the first processing circuit 117 generates a first operation request corresponding to the predetermined type of first drawing operation in the flow 602, and the first operation request may include the first type with the predetermined type. One or more operational parameters corresponding to the drawing operation. For example, the aforementioned first drawing operation may be a 3D drawing operation or other drawing operation that requires more than a predetermined amount of computing resources.
在另一實施例中,前述預定類型的第一運算,是指使用者輸入智慧型參數設定裝置110的控制指令為一預定類型指令時所需進行的運算。實作上,個人化參數自動同步系統100的設計者可以依據與所牽涉的運算量有關的各種準則,來定義使用者輸入的控制指令的類型。In another embodiment, the first operation of the predetermined type refers to an operation required when the user inputs the control command of the smart parameter setting device 110 into a predetermined type of command. In practice, the designer of the personalized parameter automatic synchronization system 100 can define the type of control command input by the user based on various criteria related to the amount of computation involved.
例如,在一實施例中,前述的預定類型指令指的是第一處理電路117處理該控制指令所需的運算量大於一預定運算量的指令。在另一實施例中,前述的預定類型指令指的是第一處理電路117處理該控制指令所需的運算量大於一預定時間的指令。在另一實施例中,前述的預定類型指令指的是與多媒體運算有關的指令。在另一實施例中,前述的預定類型指令指的是與影像處理有關的指令。在另一實施例中,前述的預定類型指令指的是與信號編、解碼處理有關的指令。在另一實施例中,前述的預定類型指令指的是與資料加、解密處理有關的指令。For example, in one embodiment, the aforementioned predetermined type of instruction refers to an instruction that the first processing circuit 117 processes the control instruction by an amount greater than a predetermined amount of operation. In another embodiment, the aforementioned predetermined type of instruction refers to an instruction that the first processing circuit 117 processes the control instruction for more than a predetermined time. In another embodiment, the aforementioned predetermined type of instructions refer to instructions related to multimedia operations. In another embodiment, the aforementioned predetermined type of instructions refer to instructions related to image processing. In another embodiment, the aforementioned predetermined type of instructions refer to instructions related to signal encoding and decoding processing. In another embodiment, the aforementioned predetermined type of instruction refers to an instruction related to data addition and decryption processing.
在流程604中,第一處理電路117會利用第一無線通信電路114將第一運算請求傳送至第二無線通信電路121。In flow 604, the first processing circuit 117 transmits the first operational request to the second wireless communication circuit 121 using the first wireless communication circuit 114.
在流程606中,第二無線通信電路121會接收第一無線通信電路114傳來的第一運算請求。In flow 606, the second wireless communication circuit 121 receives the first operational request from the first wireless communication circuit 114.
在流程608中,第二處理電路127會依據接收到的第一運算請求進行運算,以產生第一運算結果。在前述第一運算是一預定類型的第一繪圖運算的實施例中,第二處理電路127會依據該第一運算請求進行一繪圖運算以產生一第一影像資料。在此情況下,流程608中所稱的第一運算結果,即為第二處理電路127進行繪圖運算後所產生的第一影像資料。In the process 608, the second processing circuit 127 performs an operation according to the received first operation request to generate a first operation result. In the embodiment in which the first operation is a predetermined type of first drawing operation, the second processing circuit 127 performs a drawing operation according to the first operation request to generate a first image data. In this case, the first operation result referred to in the process 608 is the first image data generated after the second processing circuit 127 performs the drawing operation.
在流程610中,第二處理電路127會利用第二無線通信電路121將第一運算結果傳送至第一無線通信電路114。In the process 610, the second processing circuit 127 transmits the first operation result to the first wireless communication circuit 114 by using the second wireless communication circuit 121.
在流程612中,第一無線通信電路114會接收第二無線通信電路121傳來的第一運算結果。In the process 612, the first wireless communication circuit 114 receives the first operation result transmitted by the second wireless communication circuit 121.
在流程614中,第一處理電路117會依據接收到的第一運算結果,調整至少螢幕111所顯示的影像內容或音訊裝置113所播放的聲音內容。例如,在前述流程608中所產生的第一運算結果為第一影像資料的實施例中,第一處理電路117可於流程614中利用螢幕111顯示該第一影像資料的內容。In the process 614, the first processing circuit 117 adjusts at least the video content displayed by the screen 111 or the sound content played by the audio device 113 according to the received first operation result. For example, in the embodiment in which the first operation result generated in the foregoing process 608 is the first image data, the first processing circuit 117 can display the content of the first image data by using the screen 111 in the flow 614.
實作上,智慧型參數設定裝置110的第一處理電路117可於每次需要處理預定類型的運算時,都進行前述圖6中的流程,以利用第一參數接收裝置120來分攤部分的運算量,藉此降低智慧型參數設定裝置110所需進行的運算量。In practice, the first processing circuit 117 of the smart parameter setting device 110 can perform the foregoing process in FIG. 6 each time a predetermined type of operation needs to be processed, to share the partial operation by using the first parameter receiving device 120. The amount by which the amount of calculation required by the smart parameter setting device 110 is reduced.
在另一實施例中,第一處理電路117則會在需要處理預定類型的運算、且第一電池118的剩餘電力低於一預定水平時,才進行前述圖6中的流程。在本實施例中,當第一處理電路117需要處理預定類型的運算時,若第一電池118的剩餘電力高於預定水平,則第一處理電路117會選擇自行進行該預定類型的運算,並依據運算的結果,調整至少螢幕111所顯示的影像內容或音訊裝置113所播放的聲音內容。In another embodiment, the first processing circuit 117 performs the foregoing flow in FIG. 6 when it is necessary to process a predetermined type of operation and the remaining power of the first battery 118 is below a predetermined level. In this embodiment, when the first processing circuit 117 needs to process a predetermined type of operation, if the remaining power of the first battery 118 is higher than a predetermined level, the first processing circuit 117 may choose to perform the predetermined type of operation by itself, and Based on the result of the operation, at least the video content displayed on the screen 111 or the sound content played by the audio device 113 is adjusted.
同樣地,也可利用第二參數接收裝置130來分攤智慧型參數設定裝置110的部分運算量,以降低智慧型參數設定裝置110所需進行的運算量,藉此降低智慧型參數設定裝置110的電力消耗。Similarly, the second parameter receiving device 130 can also be used to share the partial calculation amount of the smart parameter setting device 110 to reduce the amount of calculation required by the smart parameter setting device 110, thereby reducing the intelligent parameter setting device 110. power consumption.
例如,當使用者對智慧型參數設定裝置110進行操作時,若第一處理電路117需要處理前述預定類型的一第二運算,且智慧型參數設定裝置110當時位於第四無線通信電路131的無線信號傳送範圍之內,則第一處理電路117可進行圖7中的流程702,以產生與該第二運算相對應的一第二運算請求。實作上,該第二運算請求中可包含與該第二運算相對應的一或多個運算參數。For example, when the user operates the smart parameter setting device 110, if the first processing circuit 117 needs to process a second operation of the predetermined type, and the smart parameter setting device 110 is located at the wireless of the fourth wireless communication circuit 131 at the time. Within the signal transmission range, the first processing circuit 117 can perform the flow 702 of FIG. 7 to generate a second operation request corresponding to the second operation. In practice, the second operation request may include one or more operation parameters corresponding to the second operation.
在一實施例中,前述的第二運算是一預定類型的一第二繪圖運算。在此情況下,第一處理電路117在流程702中會產生與該預定類型的第二繪圖運算相對應的一第二運算請求,且該第二運算請求中可包含與該預定類型的第二繪圖運算相對應的一或多個運算參數。例如,前述的第二繪圖運算可以是一3D繪圖運算,或是需要耗用超過一預定運算資源量的其他繪圖運算。In an embodiment, the aforementioned second operation is a second drawing operation of a predetermined type. In this case, the first processing circuit 117 generates a second operation request corresponding to the predetermined type of second drawing operation in the process 702, and the second operation request may include the second type with the predetermined type. One or more operational parameters corresponding to the drawing operation. For example, the aforementioned second drawing operation may be a 3D drawing operation or other drawing operation that requires more than a predetermined amount of computing resources.
在另一實施例中,前述預定類型的第二運算,是指使用者輸入智慧型參數設定裝置110的控制指令為一預定類型指令時所需進行的運算。實作上,個人化參數自動同步系統100的設計者可以依據與所牽涉的運算量有關的各種準則,來定義使用者輸入的控制指令的類型。In another embodiment, the second operation of the predetermined type refers to an operation required when the user inputs the control command of the smart parameter setting device 110 into a predetermined type of command. In practice, the designer of the personalized parameter automatic synchronization system 100 can define the type of control command input by the user based on various criteria related to the amount of computation involved.
例如,在一實施例中,前述的預定類型指令指的是第一處理電路117處理該控制指令所需的運算量大於一預定運算量的指令。在另一實施例中,前述的預定類型指令指的是第一處理電路117處理該控制指令所需的運算量大於一預定時間的指令。在另一實施例中,前述的預定類型指令指的是與多媒體運算有關的指令。在另一實施例中,前述的預定類型指令指的是與影像處理有關的指令。在另一實施例中,前述的預定類型指令指的是與信號編、解碼處理有關的指令。在另一實施例中,前述的預定類型指令指的是與資料加、解密處理有關的指令。For example, in one embodiment, the aforementioned predetermined type of instruction refers to an instruction that the first processing circuit 117 processes the control instruction by an amount greater than a predetermined amount of operation. In another embodiment, the aforementioned predetermined type of instruction refers to an instruction that the first processing circuit 117 processes the control instruction for more than a predetermined time. In another embodiment, the aforementioned predetermined type of instructions refer to instructions related to multimedia operations. In another embodiment, the aforementioned predetermined type of instructions refer to instructions related to image processing. In another embodiment, the aforementioned predetermined type of instructions refer to instructions related to signal encoding and decoding processing. In another embodiment, the aforementioned predetermined type of instruction refers to an instruction related to data addition and decryption processing.
在流程704中,第一處理電路117會利用第一無線通信電路114將第二運算請求傳送至第四無線通信電路131。In the flow 704, the first processing circuit 117 transmits the second operation request to the fourth wireless communication circuit 131 using the first wireless communication circuit 114.
在流程706中,第四無線通信電路131會接收第一無線通信電路114傳來的第二運算請求。In the process 706, the fourth wireless communication circuit 131 receives the second operation request from the first wireless communication circuit 114.
在流程708中,第三處理電路137會依據接收到的第二運算請求進行運算,以產生第二運算結果。在前述第二運算是一預定類型的第二繪圖運算的實施例中,第三處理電路137會依據該第二運算請求進行一繪圖運算以產生一第二影像資料。在此情況下,流程708中所稱的第二運算結果,即為第三處理電路137進行繪圖運算後所產生的第二影像資料。In the process 708, the third processing circuit 137 performs an operation according to the received second operation request to generate a second operation result. In the embodiment where the second operation is a predetermined type of second drawing operation, the third processing circuit 137 performs a drawing operation according to the second operation request to generate a second image data. In this case, the second operation result referred to in the process 708 is the second image data generated by the third processing circuit 137 after the drawing operation.
在流程710中,第三處理電路137會利用第四無線通信電路131將第二運算結果傳送至第一無線通信電路114。In the process 710, the third processing circuit 137 transmits the second operation result to the first wireless communication circuit 114 by using the fourth wireless communication circuit 131.
在流程712中,第一無線通信電路114會接收第四無線通信電路131傳來的第二運算結果。In the process 712, the first wireless communication circuit 114 receives the second operation result transmitted by the fourth wireless communication circuit 131.
在流程714中,第一處理電路117會依據接收到的第二運算結果,調整至少螢幕111所顯示的影像內容或音訊裝置113所播放的聲音內容。例如,在前述流程708中所產生的第二運算結果為第二影像資料的實施例中,第一處理電路117可於流程714中利用螢幕111顯示該第二影像資料的內容。In the process 714, the first processing circuit 117 adjusts at least the video content displayed by the screen 111 or the sound content played by the audio device 113 according to the received second operation result. For example, in the embodiment in which the second operation result generated in the foregoing process 708 is the second image data, the first processing circuit 117 can display the content of the second image data by using the screen 111 in the flow 714.
實作上,智慧型參數設定裝置110的第一處理電路117可於每次需要處理預定類型的運算時,都進行前述圖7中的流程,以利用第二參數接收裝置130來分攤部分的運算量,藉此降低智慧型參數設定裝置110所需進行的運算量。In practice, the first processing circuit 117 of the smart parameter setting device 110 can perform the foregoing process in FIG. 7 every time a predetermined type of operation needs to be processed, to share the partial operation by using the second parameter receiving device 130. The amount by which the amount of calculation required by the smart parameter setting device 110 is reduced.
在另一實施例中,第一處理電路117則會在需要處理預定類型的運算、且第一電池118的剩餘電力低於一預定水平時,才進行前述圖7中的流程。在本實施例中,當第一處理電路117需要處理預定類型的運算時,若第一電池118的剩餘電力高於預定水平,則第一處理電路117會選擇自行進行該預定類型的運算,並依據運算的結果,調整至少螢幕111所顯示的影像內容或音訊裝置113所播放的聲音內容。In another embodiment, the first processing circuit 117 performs the foregoing flow in FIG. 7 when it is necessary to process a predetermined type of operation and the remaining power of the first battery 118 is below a predetermined level. In this embodiment, when the first processing circuit 117 needs to process a predetermined type of operation, if the remaining power of the first battery 118 is higher than a predetermined level, the first processing circuit 117 may choose to perform the predetermined type of operation by itself, and Based on the result of the operation, at least the video content displayed on the screen 111 or the sound content played by the audio device 113 is adjusted.
由前述說明可知,智慧型參數設定裝置110可將部分的運算負荷交給第一參數接收裝置120或第二參數接收裝置130分攤,以藉此降低智慧型參數設定裝置110的運算量及耗電量。As can be seen from the foregoing description, the smart parameter setting device 110 can distribute the partial computing load to the first parameter receiving device 120 or the second parameter receiving device 130, thereby reducing the calculation amount and power consumption of the smart parameter setting device 110. the amount.
因此,智慧型參數設定裝置110中便可無需設置高效能的處理電路,故可進一步降低智慧型參數設定裝置110的製造複雜度和硬體成本,並提升智慧型參數設定裝置110的製造良率和量產速度。Therefore, in the smart parameter setting device 110, it is not necessary to provide a high-performance processing circuit, so that the manufacturing complexity and hardware cost of the smart parameter setting device 110 can be further reduced, and the manufacturing yield of the smart parameter setting device 110 can be improved. And mass production speed.
另外,採用圖6或圖7的方法還可在不縮短智慧型參數設定裝置110的使用時間的情況下,降低對第一電池118容量的需求,進而可減少智慧型參數設定裝置110的體積和重量,以提升智慧型參數設定裝置110的攜帶便利性。In addition, the method of FIG. 6 or FIG. 7 can also reduce the requirement on the capacity of the first battery 118 without shortening the use time of the smart parameter setting device 110, thereby reducing the volume of the smart parameter setting device 110 and The weight is used to enhance the portability of the smart parameter setting device 110.
實作上,視第一參數接收裝置120和第二參數接收裝置130的電力供應設計方式而定,也可將第二電池129或第三電池139省略。另外,若第一參數接收裝置120被設計成不支援語音通話功能,則可將第一參數接收裝置120中的第三無線通信電路123省略,以進一步降低第一參數接收裝置120的元件複雜度和硬體成本。In practice, depending on the power supply design of the first parameter receiving device 120 and the second parameter receiving device 130, the second battery 129 or the third battery 139 may be omitted. In addition, if the first parameter receiving device 120 is designed not to support the voice call function, the third wireless communication circuit 123 in the first parameter receiving device 120 may be omitted to further reduce the component complexity of the first parameter receiving device 120. And hardware costs.
在說明書及申請專利範圍中使用了某些詞彙來指稱特定的元件。然而,所屬技術領域中具有通常知識者應可理解,同樣的元件可能會用不同的名詞來稱呼。說明書及申請專利範圍並不以名稱的差異做為區分元件的方式,而是以元件在功能上的差異來做為區分的基準。在說明書及申請專利範圍所提及的「包含」為開放式的用語,故應解釋成「包含但不限定於」。另外,「耦接」在此包含任何直接及間接的連接手段。因此,若文中描述第一元件耦接於第二元件,則代表第一元件可通過電性連接或無線傳輸、光學傳輸等信號連接方式而直接地連接於第二元件,或者通過其他元件或連接手段間接地電性或信號連接至該第二元件。Certain terms are used throughout the description and claims to refer to particular elements. However, those of ordinary skill in the art should understand that the same elements may be referred to by different nouns. The specification and the scope of patent application do not use the difference in name as the way to distinguish the components, but the difference in function of the components as the basis for differentiation. The term "including" as used in the specification and the scope of the patent application is an open term and should be interpreted as "including but not limited to". In addition, "coupled" includes any direct and indirect means of attachment herein. Therefore, if the first element is described as being coupled to the second element, the first element can be directly connected to the second element by electrical connection or wireless transmission, optical transmission or the like, or by other elements or connections. The means is indirectly electrically or signally connected to the second component.
在此所使用的「及/或」的描述方式,包含所列舉的其中之一或多個項目的任意組合。另外,除非說明書中特別指明,否則任何單數格的用語都同時包含複數格的涵義。The description of "and/or" as used herein includes any combination of one or more of the listed items. In addition, the terms of any singular are intended to include the meaning of the plural, unless otherwise specified in the specification.
以上僅為本發明的較佳實施例,凡依本發明請求項所做的均等變化與修飾,皆應屬本發明的涵蓋範圍。The above are only the preferred embodiments of the present invention, and all changes and modifications made to the claims of the present invention are intended to be within the scope of the present invention.
100...個人化參數自動同步系統100. . . Personalized parameter automatic synchronization system
110...智慧型參數設定裝置110. . . Intelligent parameter setting device
111...螢幕111. . . Screen
112...輸入裝置112. . . Input device
113...音訊裝置113. . . Audio device
114...第一無線通信電路114. . . First wireless communication circuit
115...儲存裝置115. . . Storage device
116...身分認證裝置116. . . Identity authentication device
117、127、137...處理電路117, 127, 137. . . Processing circuit
118、129、139...電池118, 129, 139. . . battery
120、130...參數接收裝置120, 130. . . Parameter receiving device
121...第二無線通信電路121. . . Second wireless communication circuit
123...第三無線通信電路123. . . Third wireless communication circuit
125、135...控制介面125, 135. . . Control interface
131...第四無線通信電路131. . . Fourth wireless communication circuit
133...第五無線通信電路133. . . Fifth wireless communication circuit
140...無線廣域網路140. . . Wireless wide area network
150、160...受控裝置150, 160. . . Controlled device
Claims (23)
一智慧型參數設定裝置,設置成顯示一參數設定畫面、依據一使用者的指示設置一或多筆個人化參數、以及採用一第一無線通信協定傳送該一或多筆個人化參數;
一第一參數接收裝置,設置成採用該第一無線通信協定接收該一或多筆個人化參數,並依據該一或多筆個人化參數調整運作,或調整耦接於該第一參數接收裝置的一第一受控裝置的運作;以及
一第二參數接收裝置,位於該第一參數接收裝置的一無線信號傳送範圍之外;
其中,當該智慧型參數設定裝置偵測到該第二參數接收裝置時,該智慧型參數設定裝置會採用該第一無線通信協定將該一或多筆個人化參數傳送給該第二參數接收裝置,使得該第二參數接收裝置依據該智慧型參數設定裝置傳來的該一或多筆個人化參數調整運作,或調整耦接於該第二參數接收裝置的一第二受控裝置的運作;
其中,該智慧型參數設定裝置還設置成採用該第一無線通信協定傳送一身分識別資料至該第二參數接收裝置,該第二參數接收裝置還設置成採用與該第一無線通信協定相異的一第二無線通信協定將該身分識別資料傳送至一無線廣域網路以進行一身分認證程序、接收該無線廣域網路傳來的一第一語音資料、以及採用該第一無線通信協定將該第一語音資料傳送給該智慧型參數設定裝置,使得該智慧型參數設定裝置播放該第二參數接收裝置傳來的該第一語音資料。A personalized parameter automatic synchronization system, comprising:
a smart parameter setting device configured to display a parameter setting screen, set one or more personalization parameters according to a user's instruction, and transmit the one or more personalization parameters by using a first wireless communication protocol;
a first parameter receiving device, configured to receive the one or more personalization parameters by using the first wireless communication protocol, and adjust operation according to the one or more personalized parameters, or adjust to be coupled to the first parameter receiving device The operation of a first controlled device; and a second parameter receiving device located outside a wireless signal transmission range of the first parameter receiving device;
When the smart parameter setting device detects the second parameter receiving device, the smart parameter setting device transmits the one or more personalized parameters to the second parameter receiving by using the first wireless communication protocol. The device, the second parameter receiving device adjusts the operation according to the one or more personalized parameters transmitted by the smart parameter setting device, or adjusts the operation of a second controlled device coupled to the second parameter receiving device ;
The smart parameter setting device is further configured to transmit an identity identification data to the second parameter receiving device by using the first wireless communication protocol, and the second parameter receiving device is further configured to adopt a different from the first wireless communication protocol. Transmitting the identity identification data to a wireless wide area network for performing an identity authentication procedure, receiving a first voice data transmitted by the wireless wide area network, and using the first wireless communication protocol A voice data is transmitted to the smart parameter setting device, so that the smart parameter setting device plays the first voice data transmitted by the second parameter receiving device.
一螢幕,設置成顯示該參數設定畫面;
一輸入裝置,設置成依據該使用者的指示產生該一或多筆個人化參數;
一音訊裝置;
一第一無線通信電路,設置成採用該第一無線通信協定傳送該一或多筆個人化參數以及該身分識別資料;
一儲存裝置,設置成儲存該輸入裝置所產生的該一或多筆個人化參數;
一身分認證裝置,設置成提供該身分識別資料;以及
一第一處理電路,耦接於該螢幕、該輸入裝置、該音訊裝置、該第一無線通信電路、該儲存裝置、以及該身分認證裝置;
其中,該第一參數接收裝置包含:
一第二無線通信電路,設置成採用該第一無線通信協定接收該第一無線通信電路傳來的該一或多筆個人化參數;
一第一控制介面,用於耦接該第一受控裝置;以及
一第二處理電路,耦接於該第二無線通信電路、該第三無線通信電路、以及該第一控制介面,設置成依據該第一無線通信電路傳來的該一或多筆個人化參數,透過該第一控制介面調整該第一受控裝置的運作;
其中,該第二參數接收裝置包含:
一第四無線通信電路;
一第五無線通信電路;
一第二控制介面,用於耦接該第二受控裝置;以及
一第三處理電路,耦接於該第四無線通信電路、該第五無線通信電路、以及該第二控制介面;
其中,當該第一無線通信電路偵測到該第四無線通信電路時,該第一處理電路會控制該第一無線通信電路採用該第一無線通信協定,將該儲存裝置115中所儲存的該一或多筆個人化參數傳送至該第四無線通信電路,使得該第三處理電路依據該第四無線通信電路接收到的該一或多筆個人化參數調整該第二受控裝置的運作;
其中,當該第四無線通信電路接收到該第一無線通信電路傳來的該身分識別資料時,該第三處理電路會控制該第五無線通信電路採用該第二無線通信協定將該身分識別資料傳送至該無線廣域網路進行該身分認證程序,並接收該無線廣域網路傳來的該第一語音資料,以及控制該第四無線通信電路採用該第一無線通信協定將該第一語音資料傳送至該第一無線通信電路,使得該第一處理電路控制該音訊裝置播放該第四無線通信電路傳來的該第一語音資料。The personalization parameter automatic synchronization system of claim 1, wherein the intelligent parameter setting device comprises:
a screen set to display the parameter setting screen;
An input device configured to generate the one or more personalization parameters according to the user's instruction;
An audio device;
a first wireless communication circuit configured to transmit the one or more personalization parameters and the identity identification data by using the first wireless communication protocol;
a storage device configured to store the one or more personalization parameters generated by the input device;
An identity authentication device configured to provide the identity identification data; and a first processing circuit coupled to the screen, the input device, the audio device, the first wireless communication circuit, the storage device, and the identity authentication device ;
The first parameter receiving device includes:
a second wireless communication circuit configured to receive the one or more personalization parameters transmitted by the first wireless communication circuit by using the first wireless communication protocol;
a first control device is coupled to the first controlled device; and a second processing circuit is coupled to the second wireless communication circuit, the third wireless communication circuit, and the first control interface, and configured to Adjusting the operation of the first controlled device through the first control interface according to the one or more personalized parameters transmitted by the first wireless communication circuit;
The second parameter receiving device includes:
a fourth wireless communication circuit;
a fifth wireless communication circuit;
a second control interface is coupled to the second controlled device; and a third processing circuit is coupled to the fourth wireless communication circuit, the fifth wireless communication circuit, and the second control interface;
When the first wireless communication circuit detects the fourth wireless communication circuit, the first processing circuit controls the first wireless communication circuit to use the first wireless communication protocol to store the storage device 115. Transmitting the one or more personalization parameters to the fourth wireless communication circuit, so that the third processing circuit adjusts the operation of the second controlled device according to the one or more personalized parameters received by the fourth wireless communication circuit ;
When the fourth wireless communication circuit receives the identity identification data sent by the first wireless communication circuit, the third processing circuit controls the fifth wireless communication circuit to identify the identity by using the second wireless communication protocol. Transmitting data to the wireless wide area network for performing the identity authentication procedure, and receiving the first voice data transmitted by the wireless wide area network, and controlling the fourth wireless communication circuit to transmit the first voice data by using the first wireless communication protocol Up to the first wireless communication circuit, the first processing circuit controls the audio device to play the first voice data transmitted by the fourth wireless communication circuit.
其中,在該第一無線通信電路接收到該第一影像資料後,該第一處理電路會控制該螢幕顯示該第一影像資料。The personalization parameter automatic synchronization system of claim 3, wherein when the first processing circuit needs to process a first drawing operation of a predetermined type, the first processing circuit controls the first wireless communication circuit to transmit the first a first operation request corresponding to a drawing operation, and when the second wireless communication circuit receives the first operation request, the second processing circuit performs a drawing operation according to the first operation request to generate a first Image data, and transmitting the first image data to the first wireless communication circuit by using the second wireless communication circuit;
After the first wireless communication circuit receives the first image data, the first processing circuit controls the screen to display the first image data.
其中,在該第一無線通信電路接收到該第二影像資料後,該第一處理電路會控制該螢幕顯示該第二影像資料。The personalization parameter automatic synchronization system of claim 4, wherein when the first processing circuit needs to process a second drawing operation of the predetermined type, the first processing circuit controls the first wireless communication circuit to transmit the first a second operation request corresponding to the second drawing operation, and when the fourth wireless communication circuit receives the second operation request, the third processing circuit performs a drawing operation according to the second operation request to generate a second Image data, and using the fourth wireless communication circuit to transmit the second image data to the first wireless communication circuit;
After the first wireless communication circuit receives the second image data, the first processing circuit controls the screen to display the second image data.
一螢幕,設置成顯示一參數設定畫面;
一輸入裝置,設置成依據一使用者的指示產生相對應於該第一參數接收裝置的一或多筆個人化參數;
一音訊裝置;
一第一無線通信電路;
一儲存裝置,設置成儲存該輸入裝置所產生的該一或多筆個人化參數;
一身分認證裝置,設置成提供一身分識別資料;以及
一第一處理電路,耦接於該螢幕、該輸入裝置、該音訊裝置、該第一無線通信電路、該儲存裝置、以及該身分認證裝置,設置成控制該第一無線通信電路採用一第一無線通信協定傳送該一或多筆個人化參數至該第一參數接收裝置,使得該第一參數接收裝置依據該一或多筆個人化參數調整運作,或調整該第一受控裝置的運作;
其中,當該第一無線通信電路偵測到該第二參數接收裝置時,該第一處理電路會控制該第一無線通信電路採用該第一無線通信協定傳送該一或多筆個人化參數至該第二參數接收裝置,使得該第二參數接收裝置依據該一或多筆個人化參數調整運作,或調整該第二受控裝置的運作;
其中,該第一處理電路還會控制該第一無線通信電路採用該第一無線通信協定傳送該身分識別資料至該第二參數接收裝置,並接收該第二參數接收裝置傳來的一第一語音資料,以及控制該音訊裝置播放該第一語音資料。A smart parameter setting device for a humanized parameter automatic synchronization system, the personalized parameter automatic synchronization system comprising a first parameter receiving device, a second parameter receiving device, a first controlled device, and a second a controlled device, wherein the first controlled device is coupled to the first parameter receiving device, the second controlled device is coupled to the second parameter receiving device, and the second parameter receiving device is located at the first parameter In addition to a wireless signal transmission range of the receiving device, the intelligent parameter setting device includes:
a screen set to display a parameter setting screen;
An input device configured to generate one or more personalization parameters corresponding to the first parameter receiving device according to an indication of a user;
An audio device;
a first wireless communication circuit;
a storage device configured to store the one or more personalization parameters generated by the input device;
An identity authentication device configured to provide an identity identification data; and a first processing circuit coupled to the screen, the input device, the audio device, the first wireless communication circuit, the storage device, and the identity authentication device And configured to control the first wireless communication circuit to transmit the one or more personalization parameters to the first parameter receiving device by using a first wireless communication protocol, so that the first parameter receiving device is configured according to the one or more personalized parameters Adjusting operation or adjusting the operation of the first controlled device;
When the first wireless communication circuit detects the second parameter receiving device, the first processing circuit controls the first wireless communication circuit to transmit the one or more personalization parameters to the first wireless communication protocol to The second parameter receiving device is configured to adjust the operation of the second parameter receiving device according to the one or more personalization parameters, or adjust the operation of the second controlled device;
The first processing circuit further controls the first wireless communication circuit to transmit the identity identification data to the second parameter receiving device by using the first wireless communication protocol, and receive a first one sent by the second parameter receiving device. Voice data, and controlling the audio device to play the first voice data.
其中,在該第一無線通信電路接收到該第一影像資料後,該第一處理電路會控制該螢幕顯示該第一影像資料。The smart parameter setting device of claim 13, wherein when the first processing circuit needs to process a first drawing operation of a predetermined type, the first processing circuit controls the first wireless communication circuit to transmit the first a first operation request corresponding to the drawing operation, and when the first parameter receiving device receives the first operation request, the first parameter receiving device performs a drawing operation according to the first operation request to generate a first Image data, and transmitting the first image data to the first wireless communication circuit;
After the first wireless communication circuit receives the first image data, the first processing circuit controls the screen to display the first image data.
其中,在該第一無線通信電路接收到該第二影像資料後,該第一處理電路會控制該螢幕顯示該第二影像資料。The smart parameter setting device of claim 14, wherein when the first processing circuit needs to process a second drawing operation of the predetermined type, the first processing circuit controls the first wireless communication circuit to transmit the second a second operation request corresponding to the drawing operation, and when the second parameter receiving device receives the second operation request, the second parameter receiving device performs a drawing operation according to the second operation request to generate a second Image data, and transmitting the second image data to the first wireless communication circuit;
After the first wireless communication circuit receives the second image data, the first processing circuit controls the screen to display the second image data.
一第四無線通信電路;
一第五無線通信電路;
一第二控制介面,用於耦接該第二受控裝置;以及
一第三處理電路,耦接於該第四無線通信電路、該第五無線通信電路、以及該第二控制介面;
其中,該第二參數接收裝置位於該第一參數接收裝置的一無線信號傳送範圍之外,且當該第四無線通信電路偵測到該智慧型參數設定裝置時,該第四無線通信電路會採用一第一無線通信協定接收該智慧型參數設定裝置傳來的該一或多筆個人化參數,該第三處理電路會依據該第四無線通信電路接收到的該一或多筆個人化參數調整該第二受控裝置的運作;
其中,當該第四無線通信電路接收到該智慧型參數設定裝置傳來的一身分識別資料時,該第三處理電路會控制該第五無線通信電路採用與該第一無線通信協定相異的一第二無線通信協定將該身分識別資料傳送至一無線廣域網路進行一身分認證程序,並接收該無線廣域網路傳來的一語音資料,該第三處理電路還會控制該第四無線通信電路採用該第一無線通信協定將該語音資料傳送至該智慧型參數設定裝置,使得該智慧型參數設定裝置播放該語音資料。A second parameter receiving device for a humanized parameter automatic synchronization system, the personalized parameter automatic synchronization system comprising a first parameter receiving device, a smart parameter setting device, a first controlled device, and a first a second controlled device, the first controlled device is coupled to the first parameter receiving device, wherein the smart parameter setting device generates one or more corresponding to the first parameter receiving device according to a user indication Pen personalizing the parameter and transmitting the one or more personalization parameters to the first parameter receiving device, such that the first parameter receiving device adjusts operation of the first controlled device according to the one or more personalization parameters, The second parameter receiving device comprises:
a fourth wireless communication circuit;
a fifth wireless communication circuit;
a second control interface is coupled to the second controlled device; and a third processing circuit is coupled to the fourth wireless communication circuit, the fifth wireless communication circuit, and the second control interface;
The second parameter receiving device is located outside a wireless signal transmission range of the first parameter receiving device, and when the fourth wireless communication circuit detects the smart parameter setting device, the fourth wireless communication circuit Receiving, by using a first wireless communication protocol, the one or more personalization parameters sent by the smart parameter setting device, the third processing circuit according to the one or more personalized parameters received by the fourth wireless communication circuit Adjusting the operation of the second controlled device;
Wherein, when the fourth wireless communication circuit receives the identity identification data sent by the smart parameter setting device, the third processing circuit controls the fifth wireless communication circuit to adopt a different from the first wireless communication protocol. a second wireless communication protocol transmits the identity identification data to a wireless wide area network for performing an identity authentication process, and receives a voice data transmitted by the wireless wide area network, and the third processing circuit further controls the fourth wireless communication circuit And transmitting the voice data to the smart parameter setting device by using the first wireless communication protocol, so that the smart parameter setting device plays the voice data.
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CN104407870A (en) * | 2014-12-03 | 2015-03-11 | 英业达科技有限公司 | Remote operating system environment setting system and method |
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TWI399083B (en) * | 2010-07-28 | 2013-06-11 | Compal Communication Inc | Wireless communication system with remote control function and wireless communication module thereof |
US8612580B2 (en) * | 2011-05-31 | 2013-12-17 | Microsoft Corporation | Distributed computing framework |
US9369820B2 (en) * | 2011-08-23 | 2016-06-14 | Htc Corporation | Mobile communication device and application interface switching method |
TWM444003U (en) * | 2012-06-27 | 2012-12-21 | Weistech Technology Co Ltd | Smart television integrated application device |
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- 2013-07-03 TW TW102212551U patent/TWM470977U/en not_active IP Right Cessation
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- 2013-07-19 CN CN201310305763.2A patent/CN104079691A/en active Pending
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TWI798812B (en) * | 2019-12-31 | 2023-04-11 | 鍾國誠 | Control device and method for controlling illuminating device |
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TWI512543B (en) | 2015-12-11 |
CN104079691A (en) | 2014-10-01 |
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