201221908 六、發明說明: 【發明所屬之技術領域】 [0001] 本發明是有關於一種衛星導航計步器,特別是有關於一 種能提供使用者適當的運動路徑及使用者運動情況的相 關資訊的計步器。 【先前技I舒】 [0002] 近年,隨著養身觀念的提升,除了養生食物的攝取外, 人們也提高對於運動的重視程度。達到運動效果的方式 常見的有游泳、球類運動、步行、跑步或騎自行車等多 樣化的方式,但由於步行、跑步或騎自行車為不受時間 或空間限制,且幾乎不用額外花費的運動,因此廣受大 部份人們喜愛,成為最常見的健身方式。 [0003] 然而,人們在進行步行、跑步或騎自行車等運動時,時 常無法有效拿捏運動的適當度,而造成運動量不足未能 達到有益的健身效果,或運動量過度反而造成對肌肉及 身體的負荷等。雖市面上至今已研發出多款計步器,可 以提供使用者了解自己步行、跑步或騎自行車時的運動 步數,藉由運動步數來控制自己的運動量,但是藉由總 運動步數來控制運動量卻不是很客觀或準確的方式,因 人們並無法藉由總運動步數明確的了解到自己是否以獲 得足夠的運動量,及配合運動所需攝取的養分。此外, 當人們選擇步行、跑步或騎自行車等方式運動時,通常 只能依照自己熟悉既定的路線做運動,而少了點樂趣, 並總是無法很清楚的了解自己到底走了多遠、跑了多遠 或騎了多遠,因此時常因為運動過度而造成肌肉拉傷等 099140672 表單編號A0101 第4頁/共15頁 0992070797-0 201221908 問題。 [0004] 有鑑於上述問題,設計一種計步器,不但能依據使用者 設定的運動起始點、運動終止點、運動方式及運動需求 ,提供給予使用者可運動的路徑外,更能進一步將運動 過程的總計步數、總熱量消耗數及相對應的營養補充資 訊傳達給與使用者,幫助使用者切確的了解到自己的整 體運動情況,已成市場應用上之一刻不容缓的問題。 【發明内容】 0 [0005] 有鑑於上述習知技術之問題,本發明之目的就是在提供 一種衛星導航計步器,其能提供使用者適當的運動路徑 及使用者運動情況的相關資訊,以解決使用者無法切確 的拿捏適當的運動量的問題。 [0006] 根據本發明之目的,提出一種衛星導航計步器,其包含 :一模式設定單元、一路徑設定單元、一處理單元及一 顯示單元,而處理單元更包括一步數感測單元。其中, 模式設定單元是提供輸入一運動模式,路徑設定單元是 〇 根據一起始地點、一結束地點及模式設定單元所輸入之 運動模式產生一運動路徑,並計算該運動路徑之總距離 。處理單元是連接於模式設定單元及路徑設定單元,可 接收該運動模式並傳輸至該路徑設定單元,並可藉由步 數感測單元感測使用者之運動步伐,以得到一總計步數 ,接著處理單元依據總計步數及運動模式計算得出一熱 量消耗量,並對應熱量消耗量產生一營養補充資訊,而 顯示單元是連接於處理單元,接收並顯示運動路徑、總 計步數、熱量消耗量及營養補充資訊。 099140672 表單編號 A0101 第 5 頁/共 15 頁 0992070797-0 201221908 [0007] [0008] [0009] [0010] [0011] [0012] [0013] [0014] 其中,更包含有一傳輸介面單元,提供連接於—外部電 子裝置,衛星導航計步器係透過傳輸介面單元傳輪運動 數據至外部電子裝置。 其中,起始地點與結束地點為同一位置。 其中’運動模式為步行、跑步或騎乘腳踏車其中之—。 '、中更包括一需求單元及一評估單元,是連接於處理 早70,提供記錄一運動需求資訊,運動需求資訊為使用 者預計消耗的熱量或預計減重的重量,評估單元,是連 接於處理單元,並根據運動需求資訊及運動模式提供— 運動參考距離。 其中,路徑設定模組更進一步依據運動參考距離、起始 地點、結束地點及運動模式產生符合運動參考距離之運 動路徑。 承上所述,本發明之衛星導航計步器,其可具有一個或 多個下述優點: (1) 路徑設定單元可以依據使用者設定的運動起始地點、 結束地點及選擇的運動模式,提供使用者適當的運動路 徑,並可依據路徑的總長度及選定的運動模式,在使用 者結束運動後顯示相關的運動資訊,如總計步數、總熱 量消耗量及所需補充的營養資訊等,因此具有讓使用者 可以立即的得知適合的運動路徑、運動量是否足夠及需 要補充的營養等優點。 (2) 可以透過需求單元及評估單元,進—步針對使用者所 099140672 表單編號A0101 第6頁/共15 頁 0992070797-0 201221908 设定之預計消耗的熱量或預計減重的重量,提供不同運 動模式下的-運動參考㈣,再藉由路徑設定單元產生 存合各運動模式下的運動參考距離之運動路徑,具有可 以針對使用者的不同需求,而量身規劃適合的運動路徑 的優點。 [0015] (3)可將使用者的相關運動資訊透過傳輪介面單元傳送給 遠方的健身教練或§·生等,具有輔助健身教練或醫生了 解使用者運動狀況之優點。 0 【實施方式】 [〇〇16]以下將參照相關圖式,説明依本發明之衛星導航計步器 之實施例,為使便於理解’下述實施例中之相同元件係 以相同之符號標示來說明。 刪請參閱第1@,其係為本發明之衛星導航計步器!之方塊 圖,其包含模式狀單仙 '㈣設定單元12、處理單 元13、顯示單元14、傳輪介面單元15、需求單元16及評 〇 料奶,喊理單元則包含有_步數感測單元131。 _ Μ,模式設定單元U是提供輸人—運誠式,而運動 模式為步行、跑步或騎乘腳踏車其中之一,並將此輸入 之運動模式藉由處理單元13傳輸至路徑設定單元ι2。此 路徑d單Τ012&依據運動起始地點、結束地點及所輸 入之運動模式’提供_運動路徑,接著依據所提供之運 動路徑計算出此運動路徑的總距離,同時所提供之運動 路徑也藉由處理單元13傳輸至顯示單元14,經由顯示單 元14輸出運動路細告知使用者運動職其中,運動 0992070797- 起始地點及結束地點可以為相同的地點例如同樣可以 099140672 表單編號A0101 第7頁/共15頁 201221908 為使用者的住家位置,方便使用者運動完後可直接返回 住所休息。 [0019] 而處理單元1 3藉由步數感測單元1 31感測使用著的運動步 伐,得到使用者運動後的總計步數,接著處理模組13進 一步依據此總計步數及所輸入之運動模式,計算出使用 者運動後的熱量消耗量,及對應此熱量消耗量產生一營 養補充資訊。最後,顯示單元14經由處理單元13接收此 總計步數、此熱量銷耗量及此營養補充資訊,並顯示此 總計步數、此熱量銷耗量及此營養補充資訊給予使用者 了解其相關的運動數據及所需補充之營養。 [0020] 且透過傳輸介面單元1 5,可將相關的運動訊息,如熱量 消耗量及總計步數等,傳輸至一外部電子裝置18,讓遠 方的健身教練或醫生等利用外部電子裝置18 了解自己的 運動情況。其中傳輸介面單元15可以是無線藍芽模組或 紅外線模組,外部電子裝置18可為電腦等數位裝置。 [0021] 此外,更可以依據使用者進一步的需求規劃適當的運動 路徑。此時,可以藉由需求單元16記錄使用者的運動需 求資訊。運動需求資訊為使用者預計消耗的熱量或預計 減重的重量,並透過處理單元13將使用者的運動需求資 訊傳送至評估單元17。評估單元17會依據使用者預計消 耗的熱量或預計減重的重量,提供不同運動模式下的一 運動參考距離,並經由處理單元13將不同運動模式下的 一運動參考距離傳送至路徑設定單元12,讓路徑設定單 元12依據不同運動模式下的運動參考距離、運動起始地 點及運動結束地點產生不同的運動路徑,使各運動路徑 099140672 表單編號A0101 第8頁/共15頁 0992070797-0 201221908 符合各運動模式下的運動參考距離,並可經由顯示單元 14輸出提供給使用者參考。 [0022] Ο [0023] 請參閱第2圖,其係本發明之實施例1之運動路徑顯示介 面示意圖。當使用者設定的運動模式為步行、起始地點 為Α及結束地點為Β時,路徑設定單元12透過處理單元13 接收使用者所設定的運動模式資訊、起始地點A及結束地 點B訊息,而提供一如第2圖所示之運動路徑A至B,路徑 設定單元12並進一步依據此運動路徑A至B,同時計算出 此運動路徑的總距離,並顯示於畫面上,如第2圖所示總 距離為3公里。201221908 VI. Description of the Invention: [Technical Field] [0001] The present invention relates to a satellite navigation pedometer, and more particularly to a related information that can provide a user with appropriate motion paths and user motion conditions. Pedometer. [Previous technology I Shu] [0002] In recent years, with the improvement of the concept of health, in addition to the intake of health food, people also pay more attention to sports. The way to achieve athletic effects is a variety of ways, such as swimming, ball sports, walking, running or cycling, but because walking, running or cycling is not limited by time or space, and there is almost no extra cost of exercise, Therefore, it is widely loved by most people and becomes the most common form of fitness. [0003] However, when people are exercising, running, or riding a bicycle, they often cannot properly handle the appropriate degree of exercise, resulting in insufficient exercise to achieve a beneficial fitness effect, or excessive exercise to cause muscle and body load. Wait. Although a variety of pedometers have been developed on the market so far, users can know the number of movement steps when walking, running or cycling, and control the amount of exercise by the number of movement steps, but by the total number of movement steps. Controlling the amount of exercise is not a very objective or accurate way, because people can't clearly know whether they can get enough exercise and the nutrients needed for exercise by the total number of exercise steps. In addition, when people choose to walk, run or ride a bicycle, they usually only exercise according to their own familiar routes, but they have less fun, and they can’t clearly understand how far they have gone and run. How far or how far to ride, so often caused by muscle strain caused by excessive exercise 099140672 Form No. A0101 Page 4 / Total 15 Page 0992070797-0 201221908 Question. [0004] In view of the above problems, a pedometer is designed, which can provide a movable path to the user according to the motion starting point, the motion termination point, the motion mode and the motion requirement set by the user, and can further The total number of steps in the exercise process, the total calorie expenditure and the corresponding nutritional supplement information are conveyed to the user, helping the user to accurately understand their overall exercise situation, which has become an urgent problem in the market application. SUMMARY OF THE INVENTION [0005] In view of the above problems of the prior art, the object of the present invention is to provide a satellite navigation pedometer that can provide information about the user's appropriate motion path and user motion, Solve the problem that the user cannot accurately grasp the appropriate amount of exercise. [0006] According to an object of the present invention, a satellite navigation pedometer is provided, comprising: a mode setting unit, a path setting unit, a processing unit and a display unit, and the processing unit further comprises a one-step sensing unit. The mode setting unit provides an input-motion mode, and the path setting unit generates a motion path according to a motion mode input by a start point, an end point, and a mode setting unit, and calculates a total distance of the motion path. The processing unit is connected to the mode setting unit and the path setting unit, and can receive the motion mode and transmit to the path setting unit, and can sense the motion of the user by using the step sensing unit to obtain a total number of steps. Then, the processing unit calculates a calorie consumption amount according to the total number of steps and the exercise mode, and generates a nutritional supplement information corresponding to the calorie consumption amount, and the display unit is connected to the processing unit, receives and displays the motion path, total steps, and heat consumption. Volume and nutritional supplement information. 000140672 Form No. A0101 Page 5 of 15 0992070797-0 201221908 [0007] [0009] [0012] [0012] [0014] [0014] [0014] [0014] [0014] [0014] In the external electronic device, the satellite navigation pedometer transmits the motion data to the external electronic device through the transmission interface unit. Among them, the starting location and the ending location are the same location. The 'sports mode is one of walking, running or riding a bicycle. ', the middle includes a demand unit and an evaluation unit, which is connected to the processing early 70, provides a record of a sports demand information, the sports demand information is the weight of the user expected to consume the heat or the estimated weight loss, the evaluation unit is connected to Processing unit and provide motion reference distance based on motion demand information and motion mode. The path setting module further generates a motion path conforming to the motion reference distance according to the motion reference distance, the starting point, the ending point, and the motion mode. As described above, the satellite navigation pedometer of the present invention may have one or more of the following advantages: (1) The path setting unit may be based on a motion starting location, an ending location, and a selected motion mode set by the user. Providing a suitable motion path for the user, and displaying relevant motion information, such as total steps, total calorie consumption, and nutritional information needed, etc., after the user ends the exercise according to the total length of the path and the selected exercise mode. Therefore, it has the advantages that the user can immediately know the appropriate exercise path, whether the exercise amount is sufficient, and the nutrition that needs to be supplemented. (2) The demand unit and the evaluation unit can be used to provide different movements for the user's estimated 099140672 form number A0101 page 6 / 15 page 0992070797-0 201221908 The motion reference (4) in the mode, and then the path setting unit generates the motion path of the motion reference distance in each motion mode, and has the advantage that the suitable motion path can be tailored to the different needs of the user. [0015] (3) The user's related sports information can be transmitted to the remote fitness trainer or §·sheng through the transfer interface unit, and the auxiliary fitness instructor or the doctor can understand the user's exercise condition. [Embodiment] [Embodiment 16] Hereinafter, embodiments of a satellite navigation pedometer according to the present invention will be described with reference to the related drawings. For the sake of easy understanding, the same components in the following embodiments are denoted by the same symbols. To illustrate. Please refer to the 1@, which is the satellite navigation pedometer of the invention! The block diagram includes a mode-like single (4) setting unit 12, a processing unit 13, a display unit 14, a transfer interface unit 15, a demand unit 16, and a commentary milk, and the shouting unit includes a _step sensing Unit 131. _ Μ, the mode setting unit U provides one of the input-transportation mode, and the exercise mode is one of a walking, running or riding bicycle, and the input motion mode is transmitted to the path setting unit ι2 by the processing unit 13. The path d Τ 012 & according to the motion start location, the end location and the input motion mode 'provide _ motion path, then calculate the total distance of the motion path according to the provided motion path, and the provided motion path also borrows It is transmitted from the processing unit 13 to the display unit 14, and the output of the motion path is notified via the display unit 14 to inform the user of the sports position. The movement 0992070797 - the starting point and the ending point can be the same place, for example, the same can be 099140672 Form No. A0101 Page 7 / A total of 15 pages 201221908 is the user's home location, so that users can return directly to their homes after the exercise. [0019] The processing unit 13 senses the used motion step by the step sensing unit 1 31 to obtain the total number of steps after the user moves, and then the processing module 13 further calculates the total number of steps and the input according to the step The exercise mode calculates the calorie consumption of the user after exercise and generates a nutritional supplement information corresponding to the calorie consumption. Finally, the display unit 14 receives the total number of steps, the calorie consumption amount and the nutritional supplement information via the processing unit 13, and displays the total number of steps, the calorie consumption amount and the nutritional supplement information to inform the user of the relevant information. Sports data and nutritional supplements needed. [0020] Through the transmission interface unit 15, the related motion information, such as the amount of heat consumption and the total number of steps, can be transmitted to an external electronic device 18, so that the remote fitness instructor or doctor can use the external electronic device 18 to understand Your own sports situation. The transmission interface unit 15 can be a wireless Bluetooth module or an infrared module, and the external electronic device 18 can be a digital device such as a computer. [0021] In addition, an appropriate motion path can be planned according to further needs of the user. At this time, the user's exercise demand information can be recorded by the demand unit 16. The motion demand information is the weight of the user's estimated calorie consumption or the expected weight loss, and the user's exercise demand information is transmitted to the evaluation unit 17 through the processing unit 13. The evaluation unit 17 provides a motion reference distance in different motion modes according to the estimated heat consumed by the user or the weight of the expected weight loss, and transmits a motion reference distance in the different motion modes to the path setting unit 12 via the processing unit 13. The path setting unit 12 generates different motion paths according to the motion reference distance, the motion start point and the motion end point in different motion modes, so that each motion path 099140672 form number A0101 page 8/15 pages 0992070797-0 201221908 meets The motion reference distance in each motion mode can be provided to the user for reference via the output of the display unit 14. [0022] Please refer to FIG. 2, which is a schematic diagram of a motion path display interface according to Embodiment 1 of the present invention. When the motion mode set by the user is walking, the starting location is Α, and the ending location is ,, the path setting unit 12 receives the motion mode information, the starting location A, and the ending location B message set by the user through the processing unit 13 . Providing the motion paths A to B as shown in FIG. 2, the path setting unit 12 further calculates the total distance of the motion path according to the motion paths A to B, and displays them on the screen, as shown in FIG. The total distance shown is 3 km.
接著請參閱第3圖,其係本發明之實施例1之使用者相關 運動資訊顯示介面示意圖。本發明之衛星導航計步器透 過處理單元13接收此運動路徑A至B的總距離訊息及運動 模式為步行的訊息,並藉由步數感測單元131感測使用者 的運動步伐,得到一運動後的總計步數。接著處理單元 13進一步依據此總計步伐及運動模式為步行之資訊計算 出使用者運動後的熱量消耗量,及對應熱量消耗量產生 相對應的營養補充資訊。如第3圖所示,使用者沿著路徑 A至B完成步行運動後,顯示的總計步數為5000步,消耗 熱量為153. 5大卡及需要補充的食品為水份300c. c.。 [0024] 請參閱第4圖,其係本發明之實施例2之運動路徑顯示介 面示意圖。在此實施例中,使用者進一步透過需求單元 16設定其預計消耗的熱量250大卡。當評估單元17透過處 理單元13接收到此需求訊息後,依據預計消耗熱量250大 卡,分別針對步行、跑步及騎乘腳踏車之運動模式,各 099140672 表單編號A0101 第9頁/共15頁 0992070797-0 201221908 提供了 -運動參考轉。並 參考距離透過處理單元 〜於各運賴式之運動 ’路經設定單元12將依據=路徑設定單元12。最後 運動起始地點从運動社運動模式之運動參考距離、 之運動矢老㈣ 點β ’產生符合各運動模式 運動,考㈣的各運動路徑。 [0025] [0026] [0027] [0028] 099140672 運_式之運動參考距離產生了不同的運動路徑 二=㈣及運動路徑卜其中,在預計消耗熱量 2 運鱗彳ia切合運擁式為步行的運動 、£離5.5 A s,運動路㈣是符合運動模式為跑步的 運動參考輯3公里’運動路徑7是符合達動模式為騎乘 腳踏車的運動參考距離7公里。: 綜上所述,藉由本發明之衛星導航計步器,使用者可立 P得知適D的運動路;^、運動量是否足夠及需要補充的 營養,並可針對個者的料需求,氣量身規割適合的 送、。健身教練或醫生等’讓對_也能狗時時掌握使用者 的運動狀況。 以上所述僅為舉例性’而非為限制性者。任何未脱離本 發明之精神與料,而對其進行之等效修改或變更,均 應包含於後附之申請專利範圍中。 【圖式簡單說明】 第1圖係本發明之衛星導航計步器之方塊圖。 第2圖係本發明之實施例!之運動路徑顯示介面示意圖。 第請係本發明之實施例!之使用者相關運動資訊顯示介 表單編號Α0Ι01 第10頁/共15頁 0992070797-0 201221908 面示意圖。 第4圖係本發明之實施例2之運動路徑顯示介面示意圖 【主要元件符號說明】 [0029] ❹ I :衛星導航計步器 II :模式設定單元 12 :路徑設定單元 13 :處理單元 131 :步數感測單元 14 :顯示單元 15 :傳輸介面單元 1 6 :需求單元 Π:評估單元 18 :外部電子裝置 Ο 099140672 表單編號Α0101 第11頁/共15頁 0992070797-0Next, please refer to FIG. 3, which is a schematic diagram of a user-related motion information display interface according to Embodiment 1 of the present invention. The satellite navigation pedometer of the present invention receives the total distance information of the motion paths A to B and the motion mode as a walking message through the processing unit 13, and senses the motion of the user by the step number sensing unit 131 to obtain a The total number of steps after exercise. Then, the processing unit 13 further calculates, according to the total pace and the motion mode, the amount of heat consumption after the user's exercise, and the corresponding nutritional supplement information corresponding to the amount of heat consumption. As shown in Fig. 3, after the user completes the walking exercise along the paths A to B, the total number of steps displayed is 5000 steps, and the calorie consumption is 153.3. The card and the food to be replenished are water 300c. c. [0024] Please refer to FIG. 4, which is a schematic diagram of a motion path display interface according to Embodiment 2 of the present invention. In this embodiment, the user further sets the amount of heat that is expected to be consumed by the demand unit 16 by 250 kcal. After the evaluation unit 17 receives the demand message through the processing unit 13, according to the estimated calorie consumption of 250 kcal, respectively, for the walking, running and riding bicycle sports mode, each 099140672 form number A0101 page 9 / total 15 page 0992070797- 0 201221908 offers - sports reference turn. And the reference distance transmission processing unit ~ the movement of the respective movements' path setting unit 12 will be based on the = path setting unit 12. Finally, the starting position of the motion is generated from the motion reference distance of the sports club motion mode, and the motion vector (4) point β ′ is generated corresponding to each motion mode motion, and the motion path of the test (4). [0028] [0028] [0028] 099140672 The movement reference distance of the _ type produces different motion paths two = (four) and the motion path, which is expected to consume calories 2 The movement, £5.5 A s, sports road (four) is in line with the sport mode for running sports reference series 3 km 'sports path 7 is in line with the moving mode for the riding reference distance of the riding bicycle 7 km. In summary, with the satellite navigation pedometer of the present invention, the user can know the sport path suitable for D; ^, whether the amount of exercise is sufficient and the nutrients need to be supplemented, and can be tailored to the material demand of the individual. Tailored to the appropriate delivery. Fitness trainers or doctors, etc., let the dog know the movement of the user from time to time. The above is intended to be illustrative only and not limiting. Any equivalent modifications or alterations to the spirit and composition of the present invention are intended to be included in the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram of a satellite navigation pedometer of the present invention. Figure 2 is a schematic diagram of a motion path display interface of an embodiment of the present invention. The first embodiment of the present invention! User-related sports information display form No. Α0Ι01 Page 10 of 15 0992070797-0 201221908 Surface diagram. 4 is a schematic diagram of a motion path display interface of Embodiment 2 of the present invention [Description of main component symbols] [0029] ❹ I: Satellite navigation pedometer II: mode setting unit 12: path setting unit 13: Processing unit 131: Step Number sensing unit 14: Display unit 15: Transmission interface unit 1 6 : Demand unit Π: Evaluation unit 18: External electronic device Ο 099140672 Form number Α 0101 Page 11 / Total 15 page 0992070797-0