201017133 九、發明說明: 【發明所屬之技術領域】 本發明為有關於一種計步系統及其方法,特別是指一 種透過對感測器所感測的計步數據進行處理,進而觸發輸 出裝置輸出提示訊息的計步系統及其方法。 , 【先前技術】 立近年來’隨著半導體卫業的蓬勃發展’以及大眾保健 鬱 意識逐步提升’許多可攜式的健身器材便如雨後春筒般冒 出,如:計步器。不但能夠隨時提示使用者當前的運動情 況,更可作為健身參考依據。 -般而言,計步㈣魏在於簡計算錢者的步伐 數目進而產生計步數據,並且透示裝置來顯示此計步 數據。然巾’僅計算步伐數目的計步器已經逐漸無法滿足 使用者的需求,為此,有廠商提出結合全球定位系統的計 步器’以便使用者能夠得知其行走的路程及位置,甚至是 ❹ 提供連接相供使用者傳輸計步數據至遠端進行儲存。不 過上述方式均未有效利用計步數據,對使用者而言透過此 冲步數據僅能得知步伐數目,計步器無法進一步作出適當 的健身建議。因此,上述計步器具有無法根據 ^ 示者娜運財式關題。 敝 攄,可域雜射細妓—直存在無法根 據心數據提示使用者調整運動方式的問題,因此實有必 要提出改補技術手段,麵決此一問題。 【發明内容】 5 201017133 有鑒於先前技術存在的問題,本發明遂揭露一 系統及其方法。 °步 本發明所揭露之計步系統,適用於具有電源的可程式 化"十步裝置,包含:接收模、组、感測模組、處理模組及觸 - 發模組。其中,接收模組用以驅動連接埠接收健身程序, . 此财程序包含鮮參數;·规_⑽域测器進行 感測並生成計步參數,此計步參數包含計步數目及步伐大 J至乂其中之力參數值,處理模組用以控制處理器將健 身程序中的鮮參數與計步錄進行崎後,根據比對結 果產生相應的提示訊息;觸發模_啸據提示訊息觸發 輸出襄置進行提示。 ▲至於本發明之計步方法,適用於具有電源的可程式化 計步裝置,其步驟包括:驅動連接埠接收健身程序,此健 身程序包含鮮參數;驅動感測n進行感職生成計步參 數’此計步參數包含計步數目及步伐大小至少其中之一的 ❹ 參紐;㈣處理歸财料巾的辟錄與計步參數 進打輯後’根觀對絲產生她的提桃;根據提 示訊息觸發輸出裝置進行提示。 本發明所揭露之系統與方法如上,與先前技術之間的 彡異在於本發明透過感測器來感測計步數據作為計步參 數,並且根據計步參數來觸讀域置輪提示訊息。 透過上述的技術手段’本發明可以達到提升計步實用 性之技術功效。 【實施方式】 201017133 以下將配合圖式及實施例來詳細說明本發明之實施 方式’藉此對本發明如何應用技術手段來解決技術問題並 達成技術功效的實現過程能充分理解並據以實施。 在說明本發明所揭露的計步系統及其方法之前,先配 合第1圖」對本發明的背景進行說明,本發明適用於可 ' 程式化计步裝置100 ’所述可程式化計步裳置励是指能 夠透過接收甚至儲存的方式,得到使用者所設置的不同數 ❹ 據,並根據這些數據產生相應運作(例如:發光或發聲)的 裝置,該可程式化計步裝置100包含:電源、11〇、連接蜂 120、感測器130、處理器14〇及輸出裝置15〇等元件, 並且可设置於使用者身上如··佩帶於腳踝,用以進行計算 使用者的步伐數目。所述魏11G可為電池或太陽能供電 元件,用以提供可程式化計步裝置卿所需之電源,而其 他元件將在稍後說明計步系統時作進一步說明。 以下配合圖式對本發明計步系統及其方法作進一步 馨 的說明,請再次參閱「第1圖」,「第1圖」為本發明計步 系統之方塊圖,包含··接收模組1(n、感測模組1〇2、處 理模組103、觸發模組104、儲存模組1〇5及計時模組1〇6。 其中,接收模組101用以驅動連接埠12〇接收健身程序, 該健身程序包含根據醫學或健身教練所建議的標準參 數,所述連接埠120可支援隨插即用(piug — 顶逆) 功能,如USB,用以連結至另一端,如個人電腦、隨身 儲存裝置、手持式數位助理或筆記型電腦...等進行數據 (例如:健身程序)傳輸’甚至連料12〇 #可使用無線, 201017133 如.射頻、微波或紅外線的方式實現。舉例來說,可將可 程式化計步裝置100透過聰連結至個人電腦,並且於 個人電腦輸入健身程序後,傳送至可程式化計步襄置ι〇〇 並經由接收模組101進行接收,其詳細的說明將在稱後配 合圖式作說明。 - 感測模組102用以驅動感测器130進行感測並生成計 步參數,此計步參數可根據感測器130所感測的數值,透 ❻ 過四則運算產生包含計步數目及步伐大小至少其中之一 的參數值,所述感測器130可包含:震動感測器、加速度 感測器、陀螺儀及水平儀至少其中之一,或其組合。在實 際只施上,可搭配不同的感測器,舉例來說,搭配震動感 測器及水平儀來感測步伐數目及步伐大小,或是再結合加 速度感測器來感測行走速度’並且可將所感測到的這些數 據生成為計步參數。 處理模組103用以控制處理器H〇將健身程序中的標 〇 準參數與計步參數進行比對後,根據比對結果產生相應的 提示訊息,所述處理器140可為精簡指令集(Reduced Instruction Set Computer, RISC)微處理器或複雜指令集 (Complex Instruction Set Computer, CISC)微處理器,用以 執行比對的運算處理。舉例來說,假設健身程序記錄計步 數目為數值“200”、步伐大小為數值“60” ,當感測模 組102所生成的計步參數中,其計步數目為數值 “300” 、步伐大小為數值“20”時,處理器14〇經由比 對的運算處理後,將產生相應的提示訊息,例如:以文字 201017133 亲為片步數目已達成、步伐大小建議加大」。除了以 文予6己錄外,亦可於計步參數中的各項目(即計步數目及 V伐大小)之數值大於或等於健身程序中的各項目之數值 時以數值“Γ代表,反之則以數值“〇”作為代表以此 例而言,所產生的提示訊息為Γΐ,〇」。 觸發模組104用以根據提示訊息觸發輸出裝置15〇進 行提示,所述輸出裝置150可包含發光二極體、揚聲器及 m 液晶顯示器或至少其中之一。舉例來說,當處理模組1〇3 產生具有文字的提示訊息後,觸發模組104將根據此提示 訊息觸發液晶顯示器以便將提示訊息的文字顯示於液晶 顯示器上。另外,若提示訊息並非如前例以文字方式記 錄’而是以如:「1,0」的方式則代表計步數目達成且步伐 過小’此時可觸發揚聲器產生囉長聲,$是觸發相應的發 光二極體提示使用者加大步伐,在實際實施上,通常是以 聲音或者燈細爍賴率,甚至是燈光親來進行提示。 • 制要說明的是,上述舉例僅為了方便說明,本發明並未 限定提示訊息的記錄格式以及輸出裝置丨50的表現方式。 另外,該系統更可包含儲存模組105及計時模組106 至少其中之一 ’其中,儲存模組105用以控制記憶體(圖 中未示)儲存經由接收模組101所接收的健身程序,以便 處理模組1〇3可直接從儲存模組1〇5載入健身程序,而不 必透過接賴組101軸連接4 12G來接贿存於外部 (例如j隨身儲存裝置)的健身程序。所述記憶體為非揮發 性記憶體,也就是說’此記憶體内所儲存的資料(即健身 201017133 程序)不會隨著電源110關閉而喪失,其控制 電麼的變化來it行資料的清除、雜及寫入, 由於非揮發性記憶體的種類繁多,在 其控制方式為透過 良及寫入’除此之外, ’在某些種類中如: 一π π 7 P示公裡頰肀如: 觸Μ的情況下,亦可透過紫外線來進行資料的清除。 =於上述記憶體控制的方式為f知技術,故在此不再作費 計時模Μ 106用以控制計時器(圖中未示)持續記錄並 累=運動時取透過輸出裝置1SG輸出,所述計時器可為 石央震蘯器’舉例來說’計時模組106可經由功能鍵設定 開始計時及停鱗時,並且糾始計時至停止計時的期間 二以持續累計的方式進行記錄如:開始計時為0秒,且201017133 IX. Description of the Invention: [Technical Field] The present invention relates to a step counting system and a method thereof, and more particularly to a method of processing a step counter data sensed by a sensor, thereby triggering an output device output prompt The staging system of the message and its method. [Prior Art] In recent years, with the booming of the semiconductor industry and the awareness of the public health care, many portable fitness equipment have emerged like a pedometer. Not only can the user be reminded of the current exercise situation at any time, but also can be used as a reference for fitness. In general, the step (4) Wei is to calculate the pace of the money and then generate the step data, and the display device displays the step data. However, the pedometer that only counts the number of steps has gradually failed to meet the needs of users. For this reason, some manufacturers have proposed a pedometer combined with the global positioning system so that users can know the distance and position of their walking, even ❹ Provide a connection for the user to transmit the step data to the remote end for storage. However, none of the above methods effectively utilizes the step data, and the user can only know the number of steps through the data, and the pedometer cannot further make appropriate fitness suggestions. Therefore, the above pedometer has the problem that it cannot be based on the formula.敝 摅, can be a nuzzle of the field - there is a problem that the user cannot adjust the movement mode according to the heart data. Therefore, it is necessary to propose a technical means to correct the problem. SUMMARY OF THE INVENTION 5 201017133 In view of the problems of the prior art, the present invention discloses a system and method thereof. The step counting system disclosed in the present invention is applicable to a programmable ten-step device having a power supply, including: a receiving module, a group, a sensing module, a processing module, and a touch-emitting module. The receiving module is used to drive the connection and receive the fitness program. The financial program includes fresh parameters; the _10) domain detector performs sensing and generates a step parameter, and the step parameter includes the number of steps and the step size J. As for the force parameter value, the processing module is used to control the processor to perform the fresh parameter and the step book in the fitness program, and generate a corresponding prompt message according to the comparison result; the trigger mode _ whistle prompt message trigger output The device prompts you. ▲ As for the step counting method of the present invention, the method is applicable to a programmable pedometer device having a power source, and the steps include: driving a connection port to receive a fitness program, the fitness program includes fresh parameters; and driving sensing n to perform a sensory generation step parameter 'This step parameter includes at least one of the number of steps and the size of the step ; 纽 ;; (4) processing the granules of the money and the step parameters into the series after the 'root view on the silk to produce her peach; according to The prompt message triggers the output device to prompt. The system and method disclosed by the present invention are as above, and the prior art is different in that the present invention senses the step data as a step parameter through the sensor and touches the domain wheel prompt message according to the step parameter. Through the above technical means, the present invention can achieve the technical effect of improving the practicality of step counting. [Embodiment] 201017133 The embodiments of the present invention will be described in detail below with reference to the drawings and the embodiments. The implementation of the present invention to solve the technical problems and achieve the technical effects can be fully understood and implemented. Before describing the step counter system and method thereof disclosed in the present invention, the background of the present invention will be described with reference to FIG. 1 and the present invention is applicable to the programmable step counter device 100'. Excitation refers to a device that can receive different data set by the user through receiving or even storing, and generate corresponding operation (for example, lighting or sounding) according to the data. The programmable pedometer device 100 includes: a power source , 11〇, connected bee 120, sensor 130, processor 14〇 and output device 15〇 and the like, and can be placed on the user such as wearing on the ankle for calculating the number of steps of the user. The Wei 11G can be a battery or solar powered component to provide the power required to program the staging device, while other components will be further described later when the staging system is described. The following is a further description of the step counting system and the method thereof according to the drawings. Please refer to FIG. 1 again. FIG. 1 is a block diagram of the step counting system of the present invention, including the receiving module 1 ( The sensing module 1〇2, the processing module 103, the triggering module 104, the storage module 1〇5, and the timing module 1〇6. The receiving module 101 is used to drive the connection port 12 to receive the fitness program. The fitness program includes standard parameters suggested by a medical or fitness instructor. The port 120 can support plug-and-play (piug-top) functions, such as USB, for connecting to the other end, such as a personal computer, portable Data storage (eg, fitness program) transmission, such as storage devices, handheld digital assistants, or notebook computers, can be used even if it is wireless, 201017133, such as RF, microwave or infrared. For example, The programmable pedometer device 100 can be connected to the personal computer through Cong, and after the fitness program is input into the personal computer, it can be transmitted to the programmable pedometer device and received through the receiving module 101. Description The description module 102 is used to drive the sensor 130 for sensing and generating a step parameter, which can be used according to the value sensed by the sensor 130. The operation generates a parameter value including at least one of a number of steps and a step size, and the sensor 130 may include at least one of a vibration sensor, an acceleration sensor, a gyroscope, and a level, or a combination thereof. Actually only applied, can be used with different sensors, for example, with a vibration sensor and level to sense the number of steps and the pace, or combined with the acceleration sensor to sense the walking speed ' and can The sensed data is generated as a step parameter. The processing module 103 is configured to control the processor H to compare the standard parameter in the fitness program with the step parameter, and generate a corresponding prompt message according to the comparison result. The processor 140 may be a Reduced Instruction Set Computer (RISC) microprocessor or a Complex Instruction Set Computer (CISC) microprocessor for performing a ratio For example, suppose the fitness program records the number of step counts as a value of "200" and the step size is a value of "60". When the stepping parameter generated by the sensing module 102 is the number of steps, the number of steps is a value " 300", when the step size is the value "20", the processor 14 will generate a corresponding prompt message after the comparison operation, for example, the number of steps is reached in the word 201017133, and the step size is increased. In addition to the texts recorded in the text 6, the value of each item in the step parameter (ie, the number of steps and the size of the V-cut) may be greater than or equal to the value of each item in the fitness program. Otherwise, the value "〇" is used as a representative. In this example, the generated prompt message is Γΐ, 〇". The triggering module 104 is configured to trigger the output device 15 to prompt according to the prompt message. The output device 150 may include one or more of a light emitting diode, a speaker, and an m liquid crystal display. For example, when the processing module 101 generates a prompt message with text, the trigger module 104 will trigger the liquid crystal display according to the prompt message to display the text of the prompt message on the liquid crystal display. In addition, if the prompt message is not recorded in the text as in the previous example, it is like "1, 0", which means that the number of steps is reached and the pace is too small. 'At this time, the speaker can be triggered to generate a long sound, and $ is the corresponding trigger. The light-emitting diode prompts the user to increase the pace. In actual implementation, it is usually prompted by the sound or the light, or even the light. • It should be noted that the above examples are for convenience of description only, and the present invention does not limit the recording format of the prompt message and the manner in which the output device 50 is expressed. In addition, the system may further include at least one of the storage module 105 and the timing module 106. The storage module 105 is configured to control a memory (not shown) to store the fitness program received by the receiving module 101. In order that the processing module 1〇3 can directly load the fitness program from the storage module 1〇5, it is not necessary to connect the 4 12G through the connection group 101 to receive the fitness program of the external (for example, the j portable storage device). The memory is a non-volatile memory, that is to say, the data stored in the memory (ie, the fitness 201017133 program) is not lost as the power source 110 is turned off, and the control data changes to the data. Clear, miscellaneous and write, due to the wide variety of non-volatile memory, in its control mode is good and write 'except this, 'in some categories, such as: a π π 7 P shows kilos 肀For example, in the case of touching the sputum, the data can be removed by ultraviolet rays. = The above-mentioned memory control mode is a f-knowledge technology, so no longer the time-sampling module 106 is used to control the timer (not shown) to continuously record and accumulate = when moving, the output is output through the output device 1SG. The timer can be used for the Shiyang shock absorber. For example, the timing module 106 can be set to start timing and stop the scale through the function key, and the recording is performed in a continuous accumulation manner during the period from the correction timing to the stop timing. Start timing is 0 seconds, and
如「第2圖」所示,「第2圖」為本發明計步方法之 流程圖’其步驟包括··驅動連接槔12〇接收健身程序,健 ❹ 身程序包含標準參數(步驟2〇1);驅動感測器13G進行感 測並生成計步參數,此計步參數包含計步數目及步伐大小 至少其中之―的參數值(步驟202);控制處理器⑽將健 身程序中的標準參數與計步參數進行比對後,根據比對結 果產生相應的提祕息(㈣2G3);根顧示訊息觸發輸 出裝置150進行提不(步驟2〇4)。其中’健身程序於接收 後’可儲存於可程式化計步裝置100的記憶體中,除此之 外,亦可於可程式化計步裝置100啟動後,持續記錄並累 計時間且透過輸出裝置lso輸出。藉由上述步驟即可 201017133 透過感測器13以感測計步數據作為計步參數,並且根據 計步參數來觸發輸出裝置ls〇輸出提示訊息,達到提升計 步實用性的功效。 以下配合「第3圖」至「第6圖」以實施例方式進行 如下· ’請參閱「第3圖」’「第3圖」域用本發明輸 . 入健身程序之示意圖。前面提到,可程式化計步裝置1〇〇 可透過連接埠120 ’如:USB連結至個人電腦,以便傳送 ❹ 财程序至可程式化計步裝置1G0,具體而言,當可程式 化计步裝置100連結至個人電腦後,可透過健身程序視窗 301選擇欲進行傳送的健身程序,並且可在其中的連結狀 態顯不區塊302中顯示連結狀態(例如:顯示文字為「正 常」)。 承上所述,當要選擇欲進行傳送的健身程序時,可透 過健身程序輸入區塊鍵入標準的建議數值(即標準參 數)例如·汁步數目為數值“2〇〇”、步伐大小為數值 ❹ ”,此建議數值可參考醫學報告或醫生的建議來鍵入。另 外亦可透過載入元件3〇4從個人電腦内的檔案中載入標 準的建議數值。接著,透過點選傳送元件3〇5經由連接埠 傳送健身%序至可程式化計步裝置,且可透過點選取 4元件306在傳送過程中取消傳送。當可程式化計步裝置 100的接收模組1〇1驅動連接埠接收到健身程序後,可經 由儲存模組105控制s己憶體來儲存此健身程序^特別要說 明的是’在此例中由於透過USB進行傳送,因此在整個 傳送健身程序的過程中,其所需的電源可經由USB來提 11 201017133 供。 如「第4圖」所示,「第4圖」為應用本發明提示行 走建議之第—示意圖。當可程式化計步裝置400的儲存模 、、’内已如同上賴明儲存财程序後,賴者可於行 走時透過第-功能鍵4〇2(即電源鍵)開啟可程式化計步褒 - £刚的電源110,以便提供可程式化計步裝置觸運作 時所需之電源。接著,在行走前可透過按壓第二功能鍵 ❹ 4G3啟動計時模組106開始計時,當使用者在行走過程 中’其感測模組102,驅動感測器13〇進行感測並生成計步 參數,舉例來說,透過震動感測器所感測到的震動次數作 為步伐數目(例如:數值為“,,代表3⑻步)、透過水 平儀所感測到的數值作為步伐大小(例如:數值為“2〇” 代表踏出的腳與身體的角度),甚至透過加速度感測器感 測行走的速度(例如:數值為Ί,,代表時速丨公里)。 當感測模組102生成計步參數(例如:步伐數目為數 ❹ ,值“300”、步伐大小為數值“20”及行走速度為數值“! )後’處理模組103控制處理器14〇將儲存模組1〇5中 的健身程序之標準參數(例如:步伐數目為數值“2〇〇”、 步伐大小為數值60”及行走速度為數值“丨”)及計步 ' 參數進行比對’並且根據比對結果產生相應的提示訊息, 以此例而言,由於計步參數中的步伐大小小於健身程序的 步伐大小,故產生相應的提示訊息如:以文字顯示「步伐 大小建議加大」。 此時’觸發模組104根據處理模組1〇3所產生的提示 12 201017133 訊息觸發顯示裝置4〇1(例如:液晶顯示器)以便將文字「步 伐大小建議加大」顯示於其中。另外,#使用者結束行走 時’可透過按壓第三功能鍵404控制計時器停止計時,並 顯示累計的時間(例如··遍秒),計時模組所累計的 時間亦可經由處理模組103進行四則運算後換算為不同 - 的時間單位(例如:1小時)。 如「第5圖」所示,「第5圖」為應用本發明提示行 ❹ 走建議之第一示忍圖。刖面提到,觸發模組104所觸發的 輸出裝置15G亦可為發光二極體,因此在另—個實施例 中’可程式化計步裝置500的輸出裝置15〇可以僅使用發 光二極體來提示使用者,由於整個處理流程與上一實施例 雷同’故相同之處便不再贅述,在此僅就差異處進行說 明’其差異之處在於處理模組1G3所產生的提示訊息可於 計步參數中的各項目(即計步數目、步伐大小及行走速度) 之數值大於或等於健身程序中的各項目(即計步數目、步 • 伐大小及行走速度)之數值時以數值“Γ代表,反之則以 數值0 乍為代表’以此例而言,所產生的提示訊息即 為「1,0,1」。 接著’觸發模組104根據此提示訊息觸發輸出裝置 ' 150(例如:發光二極體)’舉例來說,輸出裝置15〇分別 為第一發光二極體50卜第二發光二極體5〇2及第三發光 一極體503,當提示訊息為「ι,〇,ι」時,同時觸發第一發 光二極體501及第三發光二極體5〇3,如此一來,使用者 即可藉由輸出裝置150的發光情形來調整運動方式,例 13 201017133 如’當第二發光二極體502沒有發光代表步伐大小沒有達 到標準,故使用者得知需加大步伐。特別要說明的是,在 =際實施上亦可藉由發光二極體的顏色來區分不同的狀 悲’甚至還可搭配七段顯示器、组5〇4來輪出計步參數的參 - 綠作更進階及人性化棚示,本發縣未限定發光二極 - 體的顯示方式及數量。 如第6圖」所不,「第6圖」為應用本發明提示行 參 走建議之第三示意圖。除了上述輸出裝置15〇外,本發明 亦可使用揚聲器601提示使用者,同樣地,與前述實施例 相同之處便不再贅述,在此僅就差異的部分進行說明。與 前一實施例的差異之處在於可程式化計步裝置6〇〇的輸 出裝置150並非以顯示方式提示使用者,而是改以揚聲方 式來提示使用者,避免使用者運動時還要注意顯示的訊 息’反而徒增困擾。 以提示訊息同樣為「1,0,1」為例,可使用揚聲器6〇1 • 以一長一短一長的嗶聲取代發光二極體的顯示方式,使用 者聽到短聲的嗶聲即可得知該項目(即步伐大小)需要調 整加大。同樣地,本發明並未限定揚聲器601的揚聲方 式,甚至亦可增加一個語音晶片(圖中未示)以便透過揚聲 器601輸出語音’所述語音晶片内設置與提示訊息相應的 提示語音,由於搭配揚聲器601及語音晶片的輸出方式為 習知技術,故在此不多作贅述。除此之外,在實際實施上 更可搭配聲音控制鍵602以方便使用者在不適合發出聲 音的場所時,能夠透過此聲音控制鍵6〇2來切換揚聲器 201017133 601的聲音大小,甚至是關閉揚聲器6〇1。 綜上所述’可知本發明與先前技術之間的差異在於透 過感測器來感測計步數據作為計步參數,並且根據計步參 數來觸發輸出裝置輸出提示訊息,藉由此—技術手段可以 讓使用者娜提純息_行走对,轉絲前技術所 存在的問題’進而達成提升計步實祕之技術功效。As shown in Fig. 2, "Fig. 2" is a flow chart of the step counting method of the present invention. The steps include: · driving the connection 槔 12 〇 receiving the fitness program, and the fitness program contains standard parameters (step 2〇1) Driving sensor 13G performs sensing and generates a step parameter, which includes at least one of the number of steps and the step size (step 202); the control processor (10) sets the standard parameters in the fitness program After the comparison with the step parameter, the corresponding secret is generated according to the comparison result ((4) 2G3); the output trigger device 150 is triggered by the message (step 2〇4). The 'fitness program after receiving' can be stored in the memory of the programmable pedometer device 100, and in addition, after the programmable pedometer device 100 is activated, the recording and accumulation time can be continuously recorded and transmitted through the output device. Lso output. Through the above steps, the sensor 13 can use the sensing step data as the step parameter, and trigger the output device ls to output the prompt message according to the step parameter, thereby improving the utility of the step-by-step utility. The following is a description of the following examples in conjunction with "3rd" to "6th". Please refer to the "3rd figure" and "3rd figure" fields to enter the fitness program. As mentioned above, the programmable pedometer device can be connected to the personal computer through a connection port 120' such as USB to transfer the financial program to the programmable pedometer device 1G0, specifically, when the program can be programmed After the step device 100 is connected to the personal computer, the fitness program to be transmitted can be selected through the fitness program window 301, and the link state can be displayed in the link state display block 302 (for example, the display text is "normal"). As described above, when selecting the fitness program to be transmitted, the standard recommended value (ie, standard parameter) can be entered through the fitness program input block. For example, the number of juice steps is the value "2", and the step size is the value. ❹ ”, the recommended value can be entered by referring to the medical report or the doctor's suggestion. It is also possible to load the standard recommended value from the file in the personal computer through the loading component 3〇4. Then, by selecting the transmission component 3〇 5 Transfer the fitness % sequence to the programmable pedometer device via the port, and cancel the transmission during the transmission through the point selection 4 element 306. When the receiving module 1〇1 of the programmable pedometer device 100 drives the connection 埠 receiving After the fitness program, the fitness module can be stored by the storage module 105 to control the fitness program. In particular, the description is made in the example of the transmission through the USB, so that during the entire process of transmitting the fitness program, The required power supply can be provided via USB for 11 201017133. As shown in Figure 4, Figure 4 is the first schematic diagram of the recommended walking instructions for applying the present invention. When the storage module of the programmable pedometer device 400 is in the same way as the storage program, the user can open the programmable step by the first function key 4〇2 (ie, the power button) while walking.褒 - £ just power supply 110 to provide the power required to program the pedometer device. Then, before the walking, the timing module 106 can be started by pressing the second function key ❹ 4G3 to start timing. When the user is in the process of walking, the sensing module 102 drives the sensor 13 to sense and generate the step. The parameter, for example, the number of vibrations sensed by the vibration sensor as the number of steps (for example, the value is ", represents 3 (8) steps), and the value sensed by the level is used as the step size (for example, the value is "2" 〇” represents the angle of the foot and the body), and even the speed of the walking is sensed by the acceleration sensor (for example, the value is Ί, representing the speed of 丨 km). When the sensing module 102 generates the step parameter (for example) The number of steps is several, the value is "300", the step size is the value "20", and the walking speed is the value "!". The processing module 103 controls the processor 14 to store the standard of the fitness program in the module 1〇5. Parameters (for example, the number of steps is the value "2", the step size is 60" and the walking speed is the value "丨") and the step 'parameters are compared' and the corresponding results are generated according to the comparison results. Message, this example, since the pace of the size of the step count parameter is less than the pace of the size of the fitness program, it generates a corresponding prompt message such as: text display, "the pace of the size of the proposed increase." At this time, the trigger module 104 triggers the display device 4〇1 (for example, a liquid crystal display) according to the prompt 12 201017133 generated by the processing module 1〇3 to display the text “step size suggestion increase”. In addition, when the user finishes walking, the timer can be stopped by pressing the third function key 404, and the accumulated time (for example, every second) can be displayed, and the time accumulated by the timing module can also be passed through the processing module 103. The time unit (for example: 1 hour) that is converted to a different - after performing four arithmetic operations. As shown in Fig. 5, "figure 5" is the first indication of the application of the present invention. It can be noted that the output device 15G triggered by the trigger module 104 can also be a light-emitting diode. Therefore, in another embodiment, the output device 15 of the programmable step counting device 500 can use only the light-emitting diode. The user is prompted to use the same process as the previous embodiment, so the details are not repeated here, and only the difference is explained here. The difference is that the prompt message generated by the processing module 1G3 can be The value of each item in the step parameter (ie, the number of steps, the step size, and the walking speed) is greater than or equal to the value of each item in the fitness program (ie, the number of steps, the step size, and the walking speed). “Γ represents, otherwise it is represented by the value 0 '” In this example, the generated prompt message is “1, 0, 1”. Then, the trigger module 104 triggers the output device 150 (for example, a light-emitting diode) according to the prompt message. For example, the output device 15 is respectively the first light-emitting diode 50 and the second light-emitting diode 5〇. 2 and the third light-emitting diode 503, when the prompt message is "ι, 〇, ι", simultaneously trigger the first light-emitting diode 501 and the third light-emitting diode 5 〇 3, so that the user The motion mode can be adjusted by the illumination condition of the output device 150. For example, when the second LED 502 is not illuminated, the step size does not reach the standard, so the user knows that the step needs to be increased. In particular, in the implementation of the = can also distinguish the different sorrows by the color of the LEDs, and even with the seven-segment display, group 5 〇 4 to take the step parameters of the parameters - green For more advanced and humanized sheds, this county does not limit the display mode and quantity of the light-emitting diodes. As shown in Fig. 6, "Fig. 6" is the third schematic diagram of the suggestion for applying the present invention. In addition to the output device 15 described above, the present invention can also use the speaker 601 to prompt the user. Similarly, the same points as those of the foregoing embodiment will not be described again, and only the differences will be described herein. The difference from the previous embodiment is that the output device 150 of the programmable pedometer device 6 does not prompt the user in a display manner, but instead prompts the user to raise the sound to avoid the user's movement. Note that the message displayed is instead a problem. For example, if the prompt message is also "1,0,1", the speaker 6〇1 can be used. • The display mode of the light-emitting diode can be replaced by a long, one short and one long beep. The user can hear the short beep. The project (ie the size of the pace) needs to be adjusted to increase. Similarly, the present invention does not limit the speaker mode of the speaker 601, and may even add a voice chip (not shown) for outputting voice through the speaker 601. The voice file corresponding to the prompt message is set in the voice chip, because The output mode of the speaker 601 and the voice chip is a conventional technique, so it will not be repeated here. In addition, in actual implementation, the sound control button 602 can be further matched to facilitate the user to switch the sound of the speaker 201017133 601 through the sound control button 6 〇 2 when the sound is not suitable for the sound, or even turn off the speaker. 6〇1. In summary, it can be seen that the difference between the present invention and the prior art is that the step data is sensed as a step parameter through the sensor, and the output device outputs a prompt message according to the step parameter, thereby using the technical means. Can let the user to mention the pure interest _ walking right, the problem of the technology before the silk turns' and then achieve the technical effect of improving the step counter.
雖然本發日肢祕之實施_露如上,财並非用以 限定本㈣’任何《娜技藝者,在视離本發明之精 神和範當可作些許之更動麵飾,耻本發明 =保護範關視本書所社”專利翻所界定者 【圖式簡單說明】 第1圖為本發明計步系統之方塊圖。 第2圖為本發明計步方法之流程圖。 第3圖為朗本發明輸續細序之示音圖。 第4圖為細本發明提示行走建議之=音 第5圖為朗本發明提示行走建議 = 第6圖為應用本發明提示行走建議 = 【主要元件符號說明】 不思圖 100可程式化計步裝置 1〇1接收模組 102感測模組 103處理模組 104觸發模組 201017133 儲存模組 計時模組 電源 連接埠 感測ι§ 參 處理器 輸出裝置 健身程序視窗 連結狀態顯示區塊 健身程序輸入區塊 載入元件 傳送元件 取消元件 可程式化計步裝置 顯示裝置 第一功能鍵 第二功能鍵 第三功能鍵 可程式化計步裝置 第一發光二極體 第二發光二極體 第三發光二極體 七段顯示器組 可程式化計步裝置 201017133 601揚聲器 602聲音控制鍵 步驟2〇1驅動-連接琿接收一健身程序該健身程 序包含一標準參數 步驟202驅動至少一感測器進行感測並生成一計步 參數,該計步參數包含計步數目及步伐大 小至少其中之一的參數值 步驟203控制一處理器將該健身程序中的該標準炎 數與該計步參數進行比對後’根據比對結 果產生相應的一提示訊息 步驟204根據該提示訊息觸發一輸出裝置進行提示Although the implementation of this day's sacred secrets _ above, the wealth is not used to limit this (four) 'any "na technologist, in the spirit of the invention and the fan can make some changes to the face, shame the invention = protection The figure is a block diagram of the step counting system of the present invention. Fig. 2 is a flow chart of the step counting method of the present invention. Fig. 4 is a schematic diagram of the sound sequence of the present invention. Fig. 4 is a schematic diagram of the walking suggestion of the present invention. Fig. 5 is a suggestion for walking in the present invention = Fig. 6 is a suggestion for applying the present invention to walk = [Description of main component symbols] Thinking 100 programmable staging device 101 receiving module 102 sensing module 103 processing module 104 triggering module 201017133 storage module timing module power connection 埠 sensing § § processor output device fitness program window Link status display block fitness program input block load component transfer component cancel component stylized pedometer device display device first function button second function button third function button programmable step counter device first light emitting diode Body second light-emitting diode third light-emitting diode seven-segment display group programmable pedometer device 201017133 601 speaker 602 sound control key step 2〇1 drive-connect 珲 receive a fitness program The fitness program includes a standard parameter step The 202 drives at least one sensor to sense and generate a step parameter, the step parameter includes a parameter value of at least one of the number of steps and the step size, and the step 203 controls a processor to perform the standard inflammation in the fitness program. After the number is compared with the step parameter, a corresponding prompt message is generated according to the comparison result. Step 204 triggers an output device to prompt according to the prompt message.