1286204 九、發明說明: 【發明所屬之技術領域】 本案係關於一種軟體開發驗證與裝置檢測系統與 方法,尤指一種可攜式通訊裝置之自動化軟體開發驗證 與裝置檢測系統與方法。 【先前技術】 • 一般而言,可攜式通訊裝置,例如行動手機,在開 發完成後,均需進行軟體開發驗證與裝置功能檢測的流 程,以確保所開發之可攜式通訊裝置軟體品質與裝置功 j缺陷^生。目前,可攜式通訊裝置之軟體開發驗證 /、裝置功能檢測多採用人工操作的方式進行,因此產口 ::或檢測人員需以人工操作的方式操作可攜式通: 裝置之測試介面,並藉由肉眼觀察可攜式通訊裝置 f影像,以確保可攜式通訊裝置之軟體品質與裝置功 月b ° 一般而言,在競爭激烈的市場t,可攜式通訊 的產品推陳出新與上市的速度,往 ^置 有率與獲利舆否的關鍵。然而 通訊裝置的顯示影像,則長時間;觀測可攜式 ;檢;人員疲勞過度,易造成誤判,甚二吏 。。另-方面’傳統的人工驗證與_方式需= 6 1286204 二證24小時進行,使可攜式通訊裝置之產品 間相對增長,無法提昇驗證與檢測的效率,如此 競爭激烈的市射,將使產品無法在第-時間上市, 而減=市場佔有率與無法取得獲利的先機。 &命* 此如何有效提供完整規劃之可攜式通訊裝置之、 軟體開發驗證與裝置檢測系統與方法,以改善習 ^藝之缺點及_,並透過自純之管控,有效率且, ^组=70成驗證與檢測作業,實為相關領域者目前所急 需解決之問題。 【發明内容】 動介主要目的為提供一種可攜式通訊裝置之自 “二體開發驗證與裝置檢㈣統與方法。透過全自動 能檢可攜式通訊裝置之軟體開發驗證與裝置功 握2業侍以更有效率且在最短的時間完成,讓產品 ,俾利於提昇產品市佔率與取得獲利之先機。1286204 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a software development verification and device detection system and method, and more particularly to an automated software development verification and device detection system and method for a portable communication device. [Prior Art] • In general, portable communication devices, such as mobile phones, require software development verification and device function detection after development to ensure the quality of the portable communication device developed. The device work j defect ^sheng. At present, the software development verification/device function detection of the portable communication device is mostly performed by manual operation, so the production port: or the inspection personnel need to manually operate the portable communication device: the test interface of the device, and By visually observing the image of the portable communication device f to ensure the software quality of the portable communication device and the device power b ° Generally speaking, in the highly competitive market, the speed of the portable communication products is new and listed. , the key to the rate and profitability. However, the display image of the communication device is long; observation portable; inspection; excessive fatigue, easy to cause misjudgment, and so on. . Another-side 'traditional manual verification and _ mode need = 6 1286204 two certificates for 24 hours, so that the relative growth of the portable communication device products, can not improve the efficiency of verification and detection, such a competitive market, will make Products cannot be listed on time-to-time, but minus = market share and opportunities to make a profit. &* How to effectively provide a fully-planned portable communication device, software development verification and device detection system and method to improve the shortcomings of _ _ _, and through the control of pure, efficient and ^ Group = 70% verification and testing operations, which is an urgent problem for the relevant field. SUMMARY OF THE INVENTION The main purpose of the mobile media is to provide a portable communication device from the "two-body development verification and device inspection (four) system and method. Through the automatic development of the portable communication device software development verification and device work grip 2 The service is more efficient and completed in the shortest time, so that the product can benefit from the increase in product market share and profitability.
Mif之另一目的為提供一種可攜式通訊裝置之自 =體開發驗證與裝置檢測系統與方法。透過全自動 ^的^ ’不只可以節省人力、降低產品驗證與檢測成 ^且可以提昇驗證與檢測作業之可靠度、避免驗證 ,、檢測人員因長期作業所可能造成的職業傷害。 稽可^上述目的’本案之—較廣義實施態樣為提供一 糸二:通訊裝置之自動化軟體開發驗證與裝置檢測 ΐ:顯!:::,取裝置’用以揭取可攜式通訊裝 置之顯不衫像;中央處理裝置,與影像擷取裝置連接, 1286204 用以接收與顯示影像擷取裝置所傳送之顯示影像,並處 理與判斷顯示影像是否正確;控制裝置,與中央處理裝 置連接,以因應中央處理裝置之控制而產生程序控制訊 號,以及致動裝置,與控制裝置連接,以因應控制裝置 之程序控制訊號而操作可攜式通訊裝置之測試介面,使 可攜式通訊裝置產生該顯示影像以供影像擷取裝置擷 取並傳送至中央處理裝置處理與判斷顯示影像是否正 確,俾藉由自動化管控對可攜式通訊裝置進行軟體開發 驗證與裝置檢測。 λ 為達上述目的,本案之另一較廣義實施態樣為提供 種可攜式通訊裝置之自動化軟體開發驗證與裝置檢 測方法,其包括步驟:(a)將可攜式通訊裝置載入自動 化軟體開發驗證與裝置檢測系統,其中該自動化軟體開 發驗證與裝置檢測糸統包括影像擁取裝置、中央處理裝 置、控制裝置以及致動裝置;(b)藉由控制裝置與致動 裝置自動操作可攜式通訊裝置之測試介面,使可攜式通 訊裝置因應產生一顯示影像;(c)藉由影像擷取裝置自 動操取可攜式通訊裝置之顯示影像;(d)將該顯示影像 傳送至中央處理裝置,並顯示、處理與判斷該顯示影像 是否正確;以及(e)將可攜式通訊装置移出自動化軟體 開發驗證與裝置檢測系統,俾完成可攜式通訊裝置之自 動化軟體開發驗證與裝置檢測。 【實施方式】 體現本案特徵與優點的一些典型實施例將在後段 8 1286204 的說明中詳細敘述。應理解的是本案能夠在不同的態樣 上具有各種的變化,其皆不脫離本案的範圍,且其中的 說明及圖示在本質上係當作說明之用,而非用以限制本 案。 請參閱第一圖,其係為本案一較佳實施例之可攜式 通訊裝置之自動化軟體開發驗證與裝置檢測系統方塊 不意圖。如第-圖所示’本案之自動化軟體開發驗證與 裝置檢測系統1係以全自動化的方式對可攜式通訊裝 置2進打軟體開發驗證與裝置功能檢測,其主要包括·· 影像擷取裝置11、中央處理裝置12、控制裝置13以及 致動裝置14。其中,影像掘取裝置u係用以操取可攜 式通訊裝置2的顯示影像。中央處理裝置12連接 像擁取裝置1卜以用於接收與顯示影像擷取裝置们所/ 傳送之顯示影像,並處理與判斷該顯示影像是否正 控制裝置13連接於中央處理裝置12,其 ,置的控制,以產生一程序控制訊號。致 =連接於控制裝置13,其係因應控制裝置13的程序押 制訊號而祕可攜歧訊裝置2之賴介面,俾使可^ 式通訊裝置2產生該顯示f彡像以供影像擷取裝置! 並傳送至中央處理裝置12處理與判斷該顯示影像 =否正確。藉此’即可利用全自動化的管控方式對可攜 工通:裝置:進行軟體開發驗證與裝置功能檢測。 凊參閱第二圖’其係為第一圖所示系統之細部結 ^忍圖。如第二圖所示,影像擷取裝置η可 “荷耦。元件攝影機(⑽camera)ni以及影像翔取卡 1286204 112’但不以此為限,其中電荷搞合元件攝影機in用 於擷取可攜式通訊裝置2之顯示影像,而影像榻取卡 112則與電荷耦合元件攝影機111連接,以^於轉換顯 示影像。另外,中央處理裝置12可包括電腦主機121 與顯示器122,但不以此為限,其中電腦主機ι21與影 像擷取裝置11連接,以用於接收與處理影像擷取 11所傳送之顯示影像,並判斷該顯示影像是否正確。 顯示器122則連接於電腦主機121,以用於顯示該顯示 • 影像。 明再參閱弟二圖,控制裝置13包括可程式邏輯控 制器131,但不以此為限。可程式邏輯控制器Η!與中 央處理裝置12之電腦主機121連接,其可受電腦=機 121的控制,依設定之軟體開發驗證與裝置功能檢測程 序,產生一程序控制訊號。另外,致動裝置14可包括 電磁閥141、空壓機142以及氣壓缸143,但不以此為 限。其中,電磁閥141係與控制裝置13之可程式邏輯 鲁控制器131連接,其可因應該程序控制訊號而開啟或關 閉其内部之閥門。空壓機142與電磁閥141連接,其可 因應電磁閥141的開啟與關閉,提供氣壓至氣壓缸 143。氣壓缸143則可因應電磁閥141之驅動而操作可 攜式通訊裝置2之測試介面,例如手機鍵盤,使可攜式 通訊裝置2產生該顯示影像,以供影像擷取裝置11擷 ,,並傳送至中央處理裝置12處理與判斷該顯示影像 是否正確。藉此,即可以全自動化的管控方式對可攜式 通訊裝置2進行.軟體驗證開發與裝置功能檢測。 1286204 請參閱第三圖,其係為第二圖所示系統之致動裝置 之另一實施例結構方塊圖。如第三圖所示,致動裝置 14除電磁閥141、空壓機142與氣壓缸143外,亦可於 電磁閥141與空壓機142間選擇性地設置一調速器 144,該調速器144與控制裝置13連接,可受控制裝置 13之控制而微調氣壓缸143施力於可攜式通訊裝置2 測試介面21之大小與速度,藉以避免可攜式通訊裝置 2於驗證與檢測過程受到損壞。 明參閱第四圖,其係為使用本案之自動化軟體開發 驗證與裝置檢測系統之流程圖。如第四圖所示,首先, 進行步驟(a),將可攜式通訊裝Ϊ 2載人本案之自動化 ff,發驗證與裝置檢測系統卜然後,進行步驟⑻, ^ 置14自動操作可攜式通訊裝置2之測試 介面’使可攜式通訊裝置2 Μ 一货你 後,進行步驟(c),拉士 “應產生一顯不影像。之 測系統1 藉由自動化軟體開發驗證與裝置檢 2之該顯示:像二J置、U自動擷取可攜式通訊裝置 傳送至自動介私思後,進打步驟(d),將該顯示影像 、 匕軟體開發驗證與裝置檢、別系絲1 + 士 土 處理裝置12,利用該…=檢測系統1之中央 斷該顯示影像是否正:央f:裝置/2顯示、處理與判 攜式通訊裝置2銘 -後,進行步驟(e),將該可 系統卜俾完成該可化軟體開發驗證與裝置檢測 驗證與裝置功能檢测裝置2之自動化軟體開發 第五圖係為第四圖所示方法t於步驟⑻之細部流 1286204 程圖。如第五圖所示,步驟(b)包含:步驟(bl)利用自 動化軟體開發驗證與裝置檢測系統1之控制裝置13產 生一程序控制訊號,並傳送至致動裝置14 ;以及步驟 ' (b2)致動裝置14因應該程序控制訊號而操作可攜式通 訊裝置2之測試介面,使可攜式通訊裝置2因應地產生 該顯示影像。另外,於一些實施例中,請再參閱第四圖, 步驟(d)亦可進一步包括步驟(dl),於判斷該顯示影像 不正確時,以例如電子郵件或簡訊的方式,通知驗證與 Φ 檢測人員。 綜上所述,本案提供一種可攜式通訊裝置之自動化 軟體開發驗證與裝置檢測系統與方法,藉由全自動化的 管控,其一方面可以縮短測試時間,增加測試效率,節 省人力,以及提昇驗證與檢測之可靠度;另^方面亦可 以增加元件之使用壽命,降低成本,避免可攜式通訊裝 置於驗證與檢測過程損壞。本案技術具有實用性、新穎 性與進步性,爰依法提出申請。 籲 縱使本發明已由上述之實施例詳細敘述而可由熟 悉本技藝之人士任施匠思而為諸般修飾,然皆不脫如附 申請專利範圍所欲保護者。 12 1286204 【圖式簡單說明】 第一圖··其係為本案一較佳實施何之可攜式通訊裝置之 自動化軟體開發驗證與裝置檢測系統方塊示意圖。 第二圖:其係為第一圖所示系統之細部結構方塊示意 圖。 第三圖:其係為第二圖所示系統之致動裝置之另一實施 例結構方塊圖。 第四圖:其係為使用本案之自動化軟體開發驗證與裝置 檢測系統之流程圖。 第五圖:其係為第四圖所示方法中於步驟(b)之細部流 程圖。 【主要元件符號說明】 1 自動化軟體開發驗證與裝置檢測系統 12中央處理裝置 14致動裝置 112影像擷取卡 122顯示器 141電磁閥 143氣壓缸 2 可攜式通訊裝置 11影像擷取裝置 13控制裝置 111電荷耦合元件攝影機 121電腦主機 131可程式邏輯控制器 142空壓機 144調速器 13Another purpose of Mif is to provide a self-developing verification and device detection system and method for a portable communication device. Through the fully automatic ^ ‘ not only can save manpower, reduce product verification and detection into ^ and can improve the reliability of verification and testing operations, to avoid verification, and the occupational injuries that may be caused by testing personnel due to long-term operations.知可^ The above purpose 'this case' - a more general implementation of the situation is to provide a second: the automation software development verification and device detection of the communication device 显: display!:::, take the device 'to uncover the portable communication device The central processing device is connected to the image capturing device, and the 1286204 is configured to receive and display the displayed image transmitted by the image capturing device, and process and determine whether the displayed image is correct; the control device is connected to the central processing device. The program control signal is generated in response to the control of the central processing unit, and the actuating device is connected to the control device to operate the test interface of the portable communication device in response to the program control signal of the control device, so that the portable communication device generates the The image is displayed for the image capturing device to capture and transmit to the central processing device for processing and determining whether the displayed image is correct, and the software development verification and device detection are performed on the portable communication device by automatic management and control. λ For the above purposes, another broad aspect of the present invention provides an automated software development verification and device detection method for a portable communication device, which includes the steps of: (a) loading the portable communication device into the automation software. Developing a verification and device detection system, wherein the automated software development verification and device detection system comprises an image acquisition device, a central processing device, a control device, and an actuation device; (b) automatically operating the portable device by the control device and the actuation device The test interface of the communication device enables the portable communication device to generate a display image; (c) automatically captures the display image of the portable communication device by the image capture device; (d) transmits the display image to the center Processing the device, displaying, processing, and determining whether the display image is correct; and (e) moving the portable communication device out of the automated software development verification and device detection system, and completing the automated software development verification and device detection of the portable communication device . [Embodiment] Some exemplary embodiments embodying the features and advantages of the present invention will be described in detail in the description of the latter paragraph 8 1286204. It is to be understood that the present invention is capable of various modifications in the various aspects of the present invention and is not intended to Please refer to the first figure, which is not intended to be an automated software development verification and device detection system for a portable communication device according to a preferred embodiment of the present invention. As shown in the figure--the automation software development verification and device detection system 1 of this case is a software development verification and device function detection for the portable communication device 2 in a fully automated manner, which mainly includes: · image capturing device 11. Central processing unit 12, control unit 13, and actuating unit 14. The image capturing device u is used to manipulate the display image of the portable communication device 2. The central processing unit 12 is connected to the image capturing device 1 for receiving and displaying the displayed image transmitted by the image capturing device, and processes and determines whether the display image is connected to the central processing device 12 by the control device 13, Control is set to generate a program control signal. </ RTI> is connected to the control device 13, which is responsive to the program of the control device 13 and is capable of carrying the interface of the ambiguous device 2, so that the communication device 2 can generate the display image for image capture. Device! And transmitted to the central processing unit 12 for processing and determining whether the display image is correct or not. In this way, the fully automated control method can be used to carry the software: device: software development verification and device function detection.凊 Refer to the second figure' which is the detail of the system shown in the first figure. As shown in the second figure, the image capturing device η can be "charge coupled. The component camera ((10) camera) ni and the image capture card 1286204 112') are not limited thereto, wherein the charge engaging component camera in is used for capturing The image of the portable communication device 2 is displayed, and the image pickup card 112 is connected to the charge coupled device camera 111 to convert the display image. In addition, the central processing device 12 may include the computer host 121 and the display 122, but not For example, the computer host ι21 is connected to the image capturing device 11 for receiving and processing the image displayed by the image capturing device 11 and determining whether the display image is correct. The display 122 is connected to the computer host 121 for use. In the display of the display image, the control device 13 includes a programmable logic controller 131, but is not limited thereto. The programmable logic controller is connected to the computer host 121 of the central processing device 12, It can be controlled by the computer=machine 121 to generate a program control signal according to the set software development verification and device function detection program. In addition, the actuation device 14 can include electricity. The valve 141, the air compressor 142, and the pneumatic cylinder 143 are not limited thereto. The solenoid valve 141 is connected to the programmable logic controller 131 of the control device 13, which can be turned on or off according to the program control signal. The internal pressure valve 142 is connected to the electromagnetic valve 141, which can supply air pressure to the pneumatic cylinder 143 in response to the opening and closing of the electromagnetic valve 141. The pneumatic cylinder 143 can operate the portable communication according to the driving of the electromagnetic valve 141. The test interface of the device 2, such as a mobile phone keypad, causes the portable communication device 2 to generate the display image for the image capture device 11 to transmit to the central processing device 12 for processing and determining whether the display image is correct. The software verification development and device function detection can be performed on the portable communication device 2 in a fully automated control manner. 1286204 Please refer to the third figure, which is another embodiment of the actuation device of the system shown in the second figure. As shown in the third figure, in addition to the electromagnetic valve 141, the air compressor 142 and the pneumatic cylinder 143, the actuating device 14 can also selectively set a tone between the electromagnetic valve 141 and the air compressor 142. The controller 144 is connected to the control device 13 and can be controlled by the control device 13 to finely adjust the size and speed of the pneumatic cylinder 143 to the test interface 21 of the portable communication device 2 to avoid the portable communication device. 2 The verification and detection process is damaged. Refer to the fourth figure, which is a flow chart of the automation software development verification and device detection system using the case. As shown in the fourth figure, first, step (a) will be performed. Portable communication device 2 Manned automation of the case ff, verification and device detection system, then proceed to step (8), ^ set 14 automatically operate the test interface of the portable communication device 2 'to make the portable communication device 2 After you have shipped the goods, proceed to step (c). "There should be no image." The measurement system 1 is verified by the automation software development and the device inspection 2: after the second J, U automatically captures the portable communication device and transmits it to the automatic private thinking, the step (d) is entered, and the display is performed. Image, software development verification and device inspection, and other wire 1 + soil treatment device 12, using the ... = detection system 1 to break the display image is positive: central f: device / 2 display, processing and arbitration After the communication device 2 is instructed, step (e) is performed, and the fifth embodiment of the automated software development of the programmable software development verification and device detection verification and device function detection device 2 is completed. The method t is shown in the detail flow of step (8) 1286204. As shown in the fifth figure, step (b) comprises: step (bl) generating a program control signal by the control device 13 of the automation software development verification and device detection system 1 and transmitting it to the actuation device 14; and step 'b2 The actuating device 14 operates the test interface of the portable communication device 2 in response to the program control signal, so that the portable communication device 2 generates the display image in response. In addition, in some embodiments, please refer to the fourth figure. Step (d) may further include the step (dl). When it is determined that the displayed image is incorrect, the verification and the Φ are notified by way of, for example, an email or a short message. Inspectors. In summary, the present invention provides an automated software development verification and device detection system and method for a portable communication device, which can reduce test time, increase test efficiency, save manpower, and improve verification by fully automated control. And the reliability of the detection; the other aspects can also increase the service life of the components, reduce the cost, and avoid damage to the portable communication device during the verification and detection process. The technology of this case is practical, novel and progressive, and it is submitted in accordance with the law. The present invention has been described in detail by the above-described embodiments, and may be modified by those skilled in the art, without departing from the scope of the appended claims. 12 1286204 [Simple description of the diagram] The first figure is a block diagram of the automation software development verification and device detection system of the portable communication device. Second figure: It is a detailed block diagram of the system shown in the first figure. Fig. 3 is a block diagram showing another embodiment of an actuator of the system shown in Fig. 2. Figure 4: It is a flow chart of the development software verification and device detection system using the automation software of this case. Figure 5: This is a detailed flow chart of step (b) in the method shown in the fourth figure. [Main component symbol description] 1 Automated software development verification and device detection system 12 Central processing device 14 Actuation device 112 Image capture card 122 Display 141 Solenoid valve 143 Pneumatic cylinder 2 Portable communication device 11 Image capture device 13 Control device 111 charge coupled device camera 121 computer host 131 programmable logic controller 142 air compressor 144 governor 13