201134516 六、發明說明: 【發明所屬之技術領域】 -種運概備、其系統與其控制方法,_係指—種依據生 - 理狀態資料進行運作控制之運動設備及其系統與方法。 【先前技術】 ^ -個人在生理上賴康雜,以麵需要至醫療單位使用相 關的器材進行測量之後’才能由醫療人員依據測量所獲得的生理 狀態資料_制者的健錄態。而現在,制者目前可以容易 •的取得部分個人健康管理相關的生理狀態測量儀器,使得使用者 可认易的取得以往許夕需要至醫療單位測量的生理狀態資料, 並由生理狀態測量儀器獲得簡單的測量結果。 隨著運動科學被認可,為了提高在勒_鱗生理狀態資 料的方舰,絲·心跳、呼鱗與運_雛較大的生理狀 態測量裝置逐漸的與運動設備結合,如此,制者便可以在使用 運動設備進行勒_時,崎動設魅翻量生理狀態資料。 細,雜運動設備與生理狀態測1:裝置結合,但大部分的 使用者而言並不了解自己的生理狀態,因此,這些使用者在使用 運動設備時’無法以適合自己的運動方案來使用運動設備,如此, 使用者只能由結合到運動設備上的生理狀態測量裝置得到使用運 動設備_生雜㈣料,當魏設備上運作的運動转並不適 合自己時’制者滅無法由生雜態啦裝置測量出的生 態資料調整運動方案。 綜上所述,可知先前技術中長期以來一直存在使用者益法由 測量出之生雜態資料,在運動設備上設定出合適的運動方案的 201134516 ==:必要提出改進的技術手段,來解決此一問題。 適的運動2讀術存在無法由測4出之生理狀態資料設定出合 週的運動方案的問題,本菸 運作押制嫌生雜態資料進行 工制之運動讀及其系統與方法,其中: 備,ίΓΓΓ揭露之依據生雜態資料進行運作㈣之運動設 資料.二s .生理狀態測量模組,用以測量使用者之生理狀態 應生理狀果用=設備之運_^ 第==?備;運動方輯擇模組,㈣依據分析結果判斷 轉是料合使时,並_料—魏方案不適合使 攄Γ、=供對應分析結果之第二運動方案,使運作控制模組依 像第一運動方案控制運動設備。 本發明所揭露之依據生理狀態資料進行運作控制之系統,至 ·運動設備以及伺服器’其中,運動設備更包含:生理狀 =測I模組,用以測量制者之生理狀態猶;運作控制模組, 2依據第-運射案控綱動設備;第—傳輸模組,用以傳送 動设備之運動情況及生理狀㈣料;伺服器更包含··第二傳輸 吴組,用以接收運動情況及生理狀態資料;運動狀態分析模组, 用以依據運動情況產生對應生理狀態資料之分析結果;運動方案 ^^擇模Ί帛以依據分析結果判斷運動方案不適合使用者 時,透過第二傳輸模組及第一傳輸模組傳送對應分析結果之第二 運動方案至運作控龍組’使運作控賴組依據第二運動方案控 制運動設備。 m 201134516 本發明所揭露之依據生理壯能 s,…. H雜進行運作控制之方法, 其 控制運動設備;提供使用者測 I*況產生對應生理狀態資 運動方案不適合使用者 案;依據第二運動方案控制 步驟至少包括:依據第一運動方案 量生理狀態資料;依據運動設 祖夕八把a田 之運動^況產生對應生理狀態資 枓之刀析V,口果;依據分析結果判斷第一 、 時,提供對應分析結果之第二運動方 運動設備。 本發明所揭露之线與方法如上,與 於本發明透過依據運動嗖備之.宣t /、 ' a、差八在 八㈣里 翻情況產生職生雜態資料之 刀析…果後,依據分析結果判斷第—運動 提供對應分析結果之第二運動方牵便用者時 賴方案’並依據第二運動方案控制運 t備,㈣解絲前技術所存在_題,並可以達成減少使用 者使用運動設備所造狀運轉害的技術功效。 【實施方式】 以下將配合®式及實施例來詳細卿本發明之槪盘實施方 式’内容心乂使任何熟習相關技藝者能夠輕易地充分理解本發明 φ解決技術問題所顧的技術手段並據以實施,藉此實現本發明可 達成的功效。 本發明讓運動設備(運動器材)被使用者使用時,依據運動 設備的運崎況以及測量所獲得之制者的生雜態資料提供使 用者更合適的麵讀,並以所提供之運動方tit行運作,使得 使用者可以在使用運動設備時獲得更適當的運動體驗。 本發明所提之「運動情況」為反映使用者使用運動設備之狀 況的資料,例如,使用者使用運動設備的時間、使用者使用運動 設備運動的力量強度、使用者使用運動設備完成一個動作的時 201134516 間、使用者使用運動設備進行兩個動作的休息時間等,但本發明 並不以此為限。 本毛明所提之「生理狀態資料」包含但不限於使用者的心跳 數、血壓值、呼吸數、肌力、肌耐力、血糖值以及肺活量等可以 反應-個人運錄況之生雜態的:轉。值得—提岐,在本發 明中’提到生理狀態資料時,若無特別提到「歷次」測 生理㈣資料’騎提到之生理狀態㈣即為使时操作生理狀 態測里裝置之當下所測得的生理狀態資料。 本發明所提之「運動方案」為控制運動設備所設定的資料, f者不_運動設備會有不同的項目,例如,在跑步機上的運 方案包含_轉、速度、雜卡魅細目、在踩 運動方案包含時間、轉速、重量、_卡㈣等項目、而在盆他 運動設備上的獅方_可純含«、讀、組數、強度等項 目「2本發_提之勒方錢不以此植。在本發明中,將以 運動方案」來表不使用者使用運動設備時,運動設備初始 ,用的運動方案’而以「第二運動方案」來表示經過本發明調整 後,運動設備使用的運動方案。 以下先以「第1圖」本發明所提之依據生理狀態資料進行 作控制之運動設備之元件示意圖來說明本發餐運作。如「第! ^斤不本發明之運動設備觸主要含有生理狀態測量模組110、 運動狀態分析池心運動方輯擇漁⑽以及運作控制模组 150 〇 、 生里狀·怒測里模組11〇負責在使用者使用運動設備励進行 •夺測里使用者的生理狀態資料。—般而言,生理狀態測量 201134516 =:為可=:說的方者的生理狀態,但本發明 式的方式測量仙者的生理狀7㈣賴組11G也可能以侵入 ’模组=測韻組110可以嵌入於運動設備中,與其他 .態:分二:…猎以將測量後取得的生理狀態資料傳遞給運動狀 i二=、’生理狀態測量模組ug也可以與運動設備100分 或無線的方式㈣量後取得的生雜態資料傳遞給 運動狀態分析模組丨2〇。 ,㈣=動狀‘悲刀析核組120負責依據使用者使用運動設備10〇的 運動情況,,對生理狀態測量模組則測量所得的生理狀態資料進 仃为析^亚在分析後產生對應生理狀態測量模組⑽測量所得之 生,狀怨身料的分析結果。一般而言,運動狀態分析模組 一個可以對運動狀態進行專業分析的專家系統,因此,專家系統 在對生理狀態資料進行運算後,便可以產生分析結果。” •運動狀S分析馳12G職生之分析結果可以反應使用者使 用運動設備100的運動強度是否合適’例如,當使用者使用跑步 機/踩踏機30分鐘(運動情況)後,心跳數(生理狀態資料)依然 不到運動時所應達到的基本心跳數,如每分鐘】2〇下等,則運動 狀態分析模組⑽所魅的分析結果將反應出目前的運動方案對 j用者的運_度太低,而當個者個齡4_賴的心跳率 符合預定的趨勢時,如在一定的範圍内逐漸的提高等,則分析結 果將反應目前的運動方案對使用者的運動強度適令,又如,當使° 用,使用拉力訓練機拉動手把1〇次(運動情況)後,拉動手^的 力量強度(生理狀態資料)已不到原先的一半,則運動狀態分析 201134516 ' 所產生的分析結果將反應目前的運動方案對使用者的運 =強度太同’而當使用者拉動手把的力量強度以預定的比率減弱 ^ ’則分析結果將表示目前的運動方案對使用者的運動強度適 中。另外’運動狀態分析模組㈣所產生之分析結果也可以包含 使用者使用運動設備刚的狀況,例如每隔ω秒記錄使用者使用 =機㈣心跳數、每次拉動手把的力量強度等,藉以提供後續 模組使用。 運動狀態分析模組12G除了依據生理狀態測量模組本次 =里所付之生理狀態資料進行分析之外,雜存模組⑽中有儲 $之歷次所得之生理狀態資料,職動狀態分析模組m也 i儲理狀㈣㈣組11G當次測量所得之生理狀態資料以 从:/ 14G賴存之歷:欠啦所得之生理狀㈣料進行分 析,使得運動狀態分析模組m所產生的分析結果更有參考價值。 存之^用=^_且m更可_儲存模組_儲 告Γ之使用者基本讀,對生微態測量模組110 嫌雜、伽編戦請當次測 儲存模組140所儲存之歷次測量所得之 析,細獲得更準確的分析結果。其中,本 二::=資料包含但不限於使用者的身高、體重、 疋f生別專。例如,運動狀態分析模組12〇先由使用者的體 重年齡以及性別等使用者基本資料計曾出 到的基本心跳數,藉,吏用者的運=== 明並不以此為限。 ⑽度疋否合適,但本發 運動方案選擇模組m負責依據運動狀態分析模組12〇所產 201134516 之,結果判斷運作控制模組15G當前控制運動設備i。。所使 ^弟-運動方缺否適合者。#運触態分析模組12〇所 屋生之分析結果表示運動強度過高/過低或是超過一定範圍時,運 ^選擇模組⑽會職運作控制模組15()當前控制運動設 . 職帛之帛—魏賴柯合者Hi!動狀離分析 =⑽所纽之分餘果絲運耗度射或是在—找圍之 =,則運動方案選擇模組13〇會判斷出運作控制模組15〇當前 籲控制運動設備100所使用之第一運動方案適合使用者。 動方麵擇模組13G也負責在觸出運作控制模組150當 運動設備刚所使用之第一運動方案不適合使用者時,提 案㈣分析模組120所產生之分析結果的第二運動方 動強度胃<_使_讀的運 ,入擇模組130可贿據分析結果由選擇資料中選出 ^40 Φ料二運動方案。其中’選擇資料可以儲存在儲存模 •擇:’ 案選擇模組130可以至儲存模組140中讀出選 ^科後’由選擇資料中選出第二運動方案,選擇資料也可以儲 =運動設備⑽外部的舰器(圖中未示)中,運動 核組130可以在連線到該舰器後,下載選擇資料。事實^ 1 =選擇模組130提供第二運動方案之方式並不以此為限,; =例域動方案選擇模組13〇傳送分析結果與第一運動方案 所ί Ϊ⑽外部的飼服器(圖中未示),並在接收由該飼服器 荦—運財雜’提供給彳讀池_,或是由運動方 案k馳,、且130直接依據分析結果產生第^動方案等。其中, 201134516 若運動方案選擇模組130直接依據分析結果產生第二運動方案, 則運動方案選擇模組130中將包含可以提供運動建議的專家系 統’運動讀選龍組13G所包含之專家纽可以域分析 • 判斷出適合使用者的第二運動方案。 •運作控制模組15G負餘據第-運動方案或第二運動方案控 制運動設備100,其中,運作控制模組15〇控制運動設備 習知相同。 籲 另外,本發明還可以額外包含顯示模組16卜提示模組165、 輪入模組170以及虛擬實境模組18〇。 顯示模組161可以顯示運動方案選擇模組13〇所提供之第二 運動方案’使得使用者了解運作控制模組15〇將要以何麵動方 案運作,顯示模組161也可以顯示與第二運動方案對應的運動資 訊’使得使用這了解運作控制模組15〇所進行之運動方案的運動 部位、為制者帶來什麼義運紐料:纽,但本發 運動資訊並不以此為限。 • 提示模組165負責在運動方案選擇模組130觸出運作控制 模組⑼當前控制運動設備卿所使用之第一運動方案不適合使 用者後,輸出提示訊息。提示模組165所輸人之提示訊息可以讓 使用者得知第-運動方案不適合的原因、建議的第二運動方案 等,但本發明並不以此為限。 提示模組⑹可赠過脑模組⑹顯示提示訊息給使用 f ’或是_ Emai卜簡訊料_送提示訊息給個者,但提示 模組165輸出提示訊息之方式並不以上述為限。 輸入模組Π0負責在顯示運動方案選擇模组13〇所提供之第 201134516 二運動方案不只-靖,提供使时·其巾之―,使得運作控 制极組150依據使用者所選擇之第二運動方案運作。 ^貫境模組勘負責在使用者使用運動設備⑽時,提供 =:象_組161,使顯示模組⑹可以顯示虛擬實 =衫像’虛擬實境模組⑽也會在提供虛擬實境之影像的同時, ,運作㈣模組15〇 I以依據控制訊號調整運動裝置的運作,例如稍微增加/減少跑步 機的速度、拉力鍛鍊機的重量等,但本發明並不以此為限。財, 值得特別-提岐,虛擬實境池勘也會在提供控舰號至運 作控制松組150的同時’不斷地判斷運動狀態分析模組⑽所產 生的分析結果是否反應出當下的運動方案已達到運動方案的臨 界’例如運動所需達到的基本心跳數為12〇下/每分鐘,而分析結 果已反f出制者的心峨為⑵下/每分鐘,贴擬實賴組⑽ 將=再提供減少跑步機之速度的控制訊號至運作控制模組⑼,又 如刀析結果已反應$制者鴻拉力鍛鍊機的力量僅低於運動方 ,案所疋義之上限的5% ’則虛擬實境模組18〇將不提供增加拉力鍛 鍊機之重1的控制峨至運作控麵組15(),藉哺制者的運動 強度維持在適合的範圍内。 「接著以第-實施例來解說本發明的運作祕與方法,並請參 照「第2圖」本發明所提之依據生理狀態資料進行運作控制之方 法流程圖。在本實施例中,假設運動設備丨⑻為跑步機,但本發 明並不以此為限。 當使用者使用跑步機進行運動時,首先可以透過輸入模組17〇 輸入第一運動方案,例如以10公里的時速跑30分鐘,如此,運201134516 VI. Description of the invention: [Technical field to which the invention belongs] - a general description of the seed transport, its system and its control method, _ refers to a sports device and its system and method for operational control based on the raw state data. [Prior Art] ^ - The individual is physiologically dependent on the health, and the face needs to be measured by the medical unit using the relevant equipment. Nowadays, the manufacturer can easily obtain some physiological state measurement instruments related to personal health management, so that the user can easily obtain the physiological state data that needs to be measured by the medical unit in the past, and is obtained by the physiological state measuring instrument. Simple measurement results. With the recognition of sports science, in order to improve the square ship of the physiological data of the Le _ scale, the physiological state measuring device of the silk heartbeat, the call scale and the squad is gradually combined with the exercise equipment, so that the maker can When using a sports device for Le _, the singularity of the singularity of the physiological state data. Fine, miscellaneous exercise equipment and physiological state measurement 1: device combination, but most users do not understand their physiological state, therefore, these users can not use the exercise program when they use sports equipment The sports equipment, in this way, the user can only obtain the use of the sports equipment _ raw (four) materials by the physiological state measuring device coupled to the sports equipment, and when the movement of the Wei equipment is not suitable for oneself, the maker can not be miscellaneous The ecological data adjustment exercise program measured by the state device. In summary, it can be seen that in the prior art, there has been a long-term user-favored data from the measurement of the miscellaneous data, and the appropriate exercise plan is set on the exercise equipment. 201134516 ==: It is necessary to propose improved technical means to solve This question. Appropriate exercise 2 reading There is a problem that the exercise plan cannot be set by the physiological state data of the test 4, and the smoke operation is controlled by the miscellaneous data to carry out the exercise program and its system and method, among which: , ΓΓΓ ΓΓΓ ΓΓΓ ΓΓΓ 生 生 生 生 生 生 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理 生理The sports party selects the module, (4) according to the analysis result, it is judged that the transition is the material combination, and the material-wei scheme is not suitable for the second motion scheme of the corresponding analysis result, so that the operation control module is the same. A motion program controls the exercise equipment. The system for operating control according to the physiological state data disclosed in the present invention, to the sports equipment and the server, wherein the motion device further comprises: a physiological state = a measuring I module for measuring the physiological state of the maker; The module, 2 is based on the first-moving project control device; the first-transmission module is used to transmit the movement and physiological condition of the moving device (four); the server further includes the second transmission group, Receiving motion and physiological state data; the motion state analysis module is configured to generate an analysis result corresponding to the physiological state data according to the motion situation; and the motion scheme is determined according to the analysis result to determine that the motion scheme is not suitable for the user according to the analysis result, The second transmission module and the first transmission module transmit a second motion scheme corresponding to the analysis result to the operation control group, so that the operation control group controls the motion device according to the second motion scheme. m 201134516 The invention discloses a method according to physiological strong energy s, .... H miscellaneous operation control, which controls the movement equipment; provides a user to measure the I* condition to generate a corresponding physiological state, and the exercise program is not suitable for the user case; The control program of the exercise program at least includes: measuring the physiological state data according to the first exercise plan; and generating a corresponding physical state resource according to the movement of the ancestor of the ancestor of the a sect of the sacred state, and the result is judged according to the analysis result; And providing a second motion party motion device corresponding to the analysis result. The line and method disclosed in the present invention are as described above, and the method according to the present invention is based on the fact that the sports equipment prepares to declare t/, 'a, and the difference eight in eight (four) to generate the occupational miscellaneous data. The result of the analysis judges that the second motion provides the corresponding analysis result, and the second motion method is used to control the operation, and the second motion scheme controls the operation, and (4) the pre-existing technology exists, and the user can be reduced. The technical effect of using the movement equipment to create a harmful effect. [Embodiment] Hereinafter, the embodiment of the present invention will be described in detail with reference to the formula and the embodiment, and the skilled person can easily fully understand the technical means of solving the technical problem of the present invention. To be implemented, thereby achieving the achievable effects of the present invention. The invention allows the sports equipment (sports equipment) to be used by the user, according to the movement condition of the sports equipment and the raw materials of the manufacturer obtained by the measurement, to provide the user with a more suitable face reading, and to provide the exercise side. The tit line operates so that the user can get a more appropriate exercise experience when using sports equipment. The "sports situation" mentioned in the present invention is information reflecting the state of the user's use of the exercise equipment, for example, the time when the user uses the exercise equipment, the strength of the user's exercise using the exercise equipment, and the user's use of the exercise equipment to complete an action. During the period of 201134516, the user uses the exercise equipment to perform the rest time of the two actions, etc., but the invention is not limited thereto. The "physiological status data" mentioned by Ben Maoming includes, but is not limited to, the user's heart rate, blood pressure value, respiratory number, muscle strength, muscle endurance, blood sugar level, and vital capacity, etc. - the personal miscellaneous state: . It is worthwhile to mention that in the present invention, when referring to physiological state data, if there is no special mention of "previous" physiological measurement (4) data, the physiological state mentioned in the ride (four) is the current operation of the physiological state measuring device. Measured physiological status data. The "sports plan" proposed by the present invention is to control the data set by the sports equipment, and the non-sports equipment has different items. For example, the operation plan on the treadmill includes _ turn, speed, miscellaneous card charm, In the treadmill program, including time, speed, weight, _ card (four) and other items, and the lion's side on the potted sports equipment _ can be purely «, read, group number, strength and other items "2 hair _ mention of the square The money is not planted. In the present invention, when the exercise program is used to indicate that the user uses the exercise device, the exercise device initially uses the exercise plan, and the "second exercise plan" indicates that the user has adjusted the invention. , the exercise program used by sports equipment. Hereinafter, the operation of the present meal will be described by taking a schematic diagram of the components of the exercise device according to the physiological state data of the present invention as described in the "Fig. 1". Such as "the first! ^ kg not the sports equipment touch of the invention mainly contains the physiological state measurement module 110, the motion state analysis pool heart sports party selection fish (10) and the operation control module 150 〇, the raw sage 11〇Responsible for the physiological state data of the user in the user's use of the exercise equipment. In general, the physiological state measurement 201134516 =: is the physiological state of the person who can say:: The way to measure the physiological shape of the immortal 7 (four) Lai group 11G may also be intrusive 'module = rhyme group 110 can be embedded in the exercise equipment, and other states: two: ... hunting to pass the physiological state data obtained after measurement The motion state i=, 'physiological state measurement module ug can also be transmitted to the motion state analysis module 丨2〇 with the motion device 100 or the wireless method (4). (4) = motion The sorcerer nucleus group 120 is responsible for the movement state measured by the physiological state measurement module according to the movement condition of the user using the exercise device 10 仃, and the corresponding physiological state measurement module is generated after the analysis. (10) The results of the analysis of the resulting raw, resentful body. In general, the motion state analysis module is an expert system that can perform professional analysis on the motion state. Therefore, the expert system can generate the physiological state data after calculation. The results of the analysis.” • The analysis of the sports S-study 12G student can reflect whether the exercise intensity of the user using the exercise device 100 is appropriate. For example, when the user uses the treadmill/treader for 30 minutes (exercise condition), the heartbeat The number (physiological status data) is still less than the basic number of heartbeats that should be achieved during exercise. For example, if the number of minutes per minute is lower than 2 minutes, the analysis result of the motion state analysis module (10) will reflect the current exercise plan for j. The degree of operation is too low, and when the heart rate of a person's age is in accordance with a predetermined trend, such as a gradual increase within a certain range, the analysis results will reflect the current exercise plan for the user. The exercise intensity is appropriate, and, for example, when the force is used, the pull force is used to pull the handle 1 time (sports condition), and the strength of the hand is pulled (physiological) The data) is less than half of the original, then the motion state analysis 201134516 'The resulting analysis will reflect the current exercise plan is too similar to the user's strength = when the user pulls the strength of the handle to a predetermined ratio Attenuate ^ 'the analysis results will indicate that the current exercise program is moderate to the user's exercise intensity. In addition, the analysis result generated by the motion state analysis module (4) may also include the condition of the user using the exercise device, for example, the user's use of the machine (four) heartbeats, the strength of each pull of the handlebar, etc., every ω seconds, In order to provide subsequent module use. The motion state analysis module 12G analyzes the physiological state data obtained by the previous state according to the physiological state measurement module, and the memory state data (10) has the physiological state data obtained by storing the previous times. Group m also i storage shape (four) (four) group of 11G measured physiological state data from the: / 14G reliance calendar: owed the physiological shape (four) material for analysis, so that the analysis of the motion state analysis module m The results are more informative. Save the ^ use = ^ _ and m can be _ storage module _ storage Γ user basic reading, the opposite micro-measurement module 110 is too mixed, gamma 戦 please be stored in the storage module 140 The analysis of previous measurements yielded more accurate analysis results. Among them, the second::= data includes but is not limited to the user's height, weight, and 生f special. For example, the motion state analysis module 12 first calculates the number of basic heartbeats that have been obtained from the user's basic age and the basic data of the user, etc., and the user's operation === is not limited thereto. (10) Degree 疋 is not suitable, but the motion program selection module m is responsible for the motion control module 15G according to the motion state analysis module 12 2011 201134516, and it is determined that the operation control module 15G currently controls the motion device i. . The brother-sports party is not suitable. #运触态分析模块 The analysis results of the house's house indicate that the exercise intensity is too high/low or exceeds a certain range. The operation control module (10) will operate the control module 15 ().帛 帛 —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— —— The first motion plan used by the group 15 current control motion device 100 is suitable for the user. The motion selection module 13G is also responsible for the second motion momentum of the analysis result generated by the analysis module 120 when the operation control module 150 is touched out of the first motion scheme that the motion equipment just used is not suitable for the user. The stomach <_make the read, the selection module 130 can choose the data from the selection data to select the ^40 Φ material two motion plan. The 'selection data can be stored in the storage module. ● The selection module 130 can read the selection in the storage module 140. The second motion scheme is selected from the selected data, and the selected data can also be stored. (10) In an external ship (not shown), the motion core group 130 may download the selected data after connecting to the ship. Facts ^ 1 = The way in which the selection module 130 provides the second motion scheme is not limited thereto; the example domain motion scheme selection module 13 transmits the analysis result and the feeding device outside the first motion scheme (10) ( It is not shown in the figure, and is received by the feeding device 荦 运 运 ' ' 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或 或Wherein, 201134516, if the motion plan selection module 130 directly generates a second motion plan according to the analysis result, the motion plan selection module 130 will include an expert system that can provide motion suggestions, and the expert button included in the sports read selection group 13G can Domain Analysis • Determine the second exercise plan that is appropriate for the user. • The operation control module 15G controls the exercise device 100 according to the first motion plan or the second motion plan, wherein the operation control module 15 〇 controls the exercise device to be the same. In addition, the present invention may additionally include a display module 16 and a prompting module 165, a wheeling module 170, and a virtual reality module 18A. The display module 161 can display the second motion scheme provided by the motion scheme selection module 13 to enable the user to understand the operation scheme of the operation control module 15 , and the display module 161 can also display and the second motion. The sports information corresponding to the scheme makes it possible to use this to understand the moving parts of the exercise program carried out by the operation control module 15 , and what kind of luck is required for the makers: New Zealand, but the sports information is not limited thereto. • The prompting module 165 is responsible for outputting a prompt message after the motion scheme selection module 130 touches the operational control module (9) that the first motion scheme currently used by the motion device is not suitable for the user. The prompt message sent by the prompting module 165 can let the user know the reason why the first motion plan is not suitable, the suggested second motion plan, and the like, but the invention is not limited thereto. The prompting module (6) may be given a brain module (6) to display a prompt message to the user using f ’ or _ Emai _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The input module Π0 is responsible for displaying the 201134516 second motion plan provided by the motion plan selection module 13〇, not only the Jing, providing the timepiece, and the operation control group 150 according to the second motion selected by the user. The program operates. The cross-section module survey is responsible for providing the =: _ group 161 when the user uses the sports device (10), so that the display module (6) can display the virtual real shirt = "virtual reality module (10) will also provide virtual reality. At the same time, the operation (4) module 15〇I adjusts the operation of the motion device according to the control signal, for example, slightly increases/decreases the speed of the treadmill, the weight of the tension exercise machine, etc., but the invention is not limited thereto. Wealth, deserves special-raise, virtual reality pool survey will also provide the control number to the operational control loose group 150 while constantly continually judging whether the analysis results generated by the motion state analysis module (10) reflect the current motion plan The criticality of the exercise program has been reached. For example, the basic number of heart beats required for exercise is 12 //min, and the analysis result has been counter-f 的 ( ( (2) / per minute, the affiliation group (10) will = Further provide a control signal to reduce the speed of the treadmill to the operational control module (9), and as the result of the analysis of the knife has been reflected, the power of the maker's Hongli exercise machine is only lower than the exercise side, and the limit of the case is 5%. The virtual reality module 18 will not provide the control of increasing the weight of the exercise machine to the operational control panel 15 (), and the exercise intensity of the borrower is maintained within a suitable range. "The operation secrets and methods of the present invention will be explained in the first embodiment, and the flow chart of the method for controlling the operation based on physiological state data according to the present invention will be described with reference to "Fig. 2". In the present embodiment, it is assumed that the exercise device (8) is a treadmill, but the present invention is not limited thereto. When the user uses the treadmill to exercise, the first motion plan can be first input through the input module 17 ,, for example, running at a speed of 10 kilometers per hour for 30 minutes.
LSI 12 201134516 作控制模組150便可以依據使用者所輸入的第一運動方案控制跑 步機(步驟501 ),也就是控制跑步機以1〇公里的時速運作。 在使用者使用跑步機開始跑步後,生理狀態测量模組n〇可 - 以測量使用者的生理狀態資料(步驟510)。在本實施例中,假設 生理狀測1模組110嵌入在跑步機的握把中,但本發明並不以 此為限。使用者在跑步時可以握住生理狀態測量模組110外露在 跑步機之握把上的金屬片,如此,生理狀態測量模組110便可以 測量使用者的心跳率(生理狀態資料),例如為每分鐘66下。另 籲外,生理狀態測量模組110也可能為綁在手臂上的測量裝置,並 在測量到使用者的心跳率後,將測聊到的心跳率以藍芽等無線傳 輸技術傳送給跑步機。 在生理狀態測量模組110測量使用者的生理狀態資料(步驟 510)後,運動狀態分析模組120可以依據運動設備之運動情況產 生對應生理狀態資料之分析結果(步驟520)。在本實施例中,假 設使用者由開始跑步起經過了 10分鐘,在這10分鐘内,生理狀 •態測量模組110在前五分鐘所測量到之使用者的心跳率由每分鐘 的下逐漸增加至每分鐘12〇 τ,後五分鐘所測量到之使用者的心 跳率都在每分鐘120下左右,則運動狀態分析模k 120會依據使 用者使用獅設備之務航⑽分鐘)雜齡彳量模㈣〇 所測量到之者.轉(每分鐘㈣τ)進行分析,若運動 狀態分析她12G預存的建議心跳率介於13()至15()之間,則運 動狀態分析模組120將產生出運動強度過低的分析結果。其尹, 为析結果並不以上述為限。 另外’若使用者更透過輸入模組170輸入個人的基本資料, 201134516 例如身高165、體重60公斤、女性、22歲,則運動狀態分析模組 120可以依據上述之基本資料,由預存之心跳率對照表中找出b他 值為21.8之22歲女性跑步時建議的心跳率範圍,例如介於12〇 - 至140之間,如此,運動狀態分析模組120將可以依據運動設備 • 之運動情況、使用者的基本資料以及生理狀態資料產生運動強度 適中的分析結果。 & 在運動狀態分析模組120依據運動設備之運動情況產生對應 生理狀禮資料之分析結果(步驟520)後,運動方案選擇模組 可以依據運綠態分龍組12〇所產生之分析絲綱第一運動 T案是否適合使用者(步驟530)。由於在本實施例中,運動狀態 刀析模、’且120產生之分析結果表示為運動強度過低戶斤以運動方 案選擇模組13G會躺㈣-職方案並不適合朗者,如此, 運動方案選擇模組励可以進一步提供對應分析結果的第二運動 方案(步驟560)。假設在本實施例中,儲存模組14〇儲存有如「第 3圖」所tf之獅方案建議表·,則運動方_擇模組⑽可以 •依據建議心跳率(13G)與測得之心跳率錄(120)的差值(_10), 在運動方案建議表彻的差值攔位彻中搜尋相符的範圍(·5〜 -10),並由參考言周整攔似201讀出對應該 也就是說,姑倾财,運財雜擁組 速度為母小時12公里(10+2)的第二運動方案。 若見y機中包含提示模組165,則提示模組165可以此時(運 動方案選擇;^組13G觸第—獅方案並不適合使用者)輸出提 不U步驟570)。假設提示模组165會透過顯示模组161的方 式顯示「心跳率低於運動建議值,建議提高速度到每小時12公 14 201134516 息,输池165並不以_示 161顯示提示 在運動方案選擇模組130提供第二運動方案(步驟56〇)後, .運作控制模組15G會雜運動方_擇模組】3G所提供之第二運 •動方案控制跑步機(步驟別),也就是說,在制者預計跑步所 剩餘的20分鐘内,運作控制模組15〇會以每小時12公里的速度 運作,如此,使用者便可以合適的運動方案進行運動。 料錄態分賴組120纽之分餘果絲為運動強度適 中’所以運動方案選觀組13()會觸出第—勒方案並適合使 用者,則麵讀麵顯130不會提供帛二運動方案,運作控 制模組150會似康運第一運動方案持續控制跑步機(步驟5〇ι )。工 另外’根據「第3圖」所示之運動方案建議表4〇〇,運動方案 選擇模組130除了提供將跑步速度提高為每小時12公里(心跳率 低於建4 5至1〇下)的第二運動方案之外,也可以—併提供將跑 步速度提高為每小時15公里(心跳率低於建議1〇至15下)的第 φ 二運動方案,如此,若跑步機中包含顯示模組161以及輸入模組 170 ’則顯示模組161將可以顯示運動方案選擇模組13〇所提供的 第一運動方案,也就是建議使用者將速度提高為每小時12公里或 15么里,並顯示為顯示提面為每小時I?公里/15公里的第二運動 方案顯示「維持心肺以及腿部肌肉的跑步速度」/「訓練心肺以及 腿部肌肉的跑步速度」的運動資訊(步驟581),但本發明所提之 第二運動方案以及運動資訊都不以上述為限。 在顯示模組161顯示運動方案選擇模組130所提供的多個運 動方案(步驟581)後,輸入模組170可以提供使用者選擇其中一 201134516 個第二運動方案(步驟582)。例如’使用者可以透過輸入模組17〇 選擇提高速度為每小時15公里的第二運動方案,使得運作控制模 組150會依據輸入模組170提供使用者輸入之第二運動方案控制 - 跑步機(步驟590),也就是說,在使用者預計跑步所剩餘的2〇 分鐘内,運作控制模組150會以每小時15公里的速度運作。 以下再以「第4圖」本發明所提之依據生理狀態資料進行運 作控制之系統架構圖來說明本發明的運作。如「第4圖」所示, 本發明含有運動設備200以及伺服器300。其中,運動設備2〇〇 主要含有生理狀態測量模組210、運作控制模組25〇、第一傳輸模 組290,以及可以附加的顯示模組261與虛擬實境模組28〇 ;伺服 器300主要含有運動狀態分析模組32〇、運動方案選擇模組3如、 第二傳輸模組390以及可以附加的儲存模組34〇與提示模組365。 第一傳輸模組290負責將資料由運動設備2〇〇傳送到伺服器 3〇〇 ’相似的,第二傳輸模組390負貴將資料由伺服器3〇〇傳送到 運動設備200。 • 另外,生理狀態測量模組21〇、運作控制模組250、顯示模組 261、運動狀態分析模組32〇以及運動方案選擇模組33〇大致上分 別與「第1圖」中之生理狀態測量模組11()、運作控制模組丨5〇、 顯示模組165、運動狀態分析模組12〇以及運動方案選擇模組13〇 相同,而差別在於生理狀態測量模組21〇透過第一傳輸模組29〇 將測量所得之生雜態㈣傳賴舰器鲁運触態分析模組 320透過第二傳輸模組39〇接收運動設備2〇〇所傳來的生理狀態資 料,運動方案選擇模組33〇透過第二傳輸模組39〇將第二運動方 案傳送到運動設備,運作控制模組25〇以及顯示模組Ml透過 201134516 第一傳輸模組190接收伺服器3〇〇所傳來的第二運動方案。其中, 特別值得-提的是,運作控制模組25Q會透過第—傳輸模組⑽ 傳送運動設備200之運動情況至伺服器3〇〇,運動方案選擇模組 330透過第二傳輸模組39〇接收運動設備2〇〇所傳來之運動設備 200之運動情況。 輸入模組270、虛擬實境模組280、儲存模組34〇以及提示模 組161則分別與「第1圖」中之輸入模組17〇、虛擬實境模組丨⑼、 儲存模組140以及提示模組365完全相同,故不再贅述。 接著以第二實施例來解說本發明的運作系統與方法,請繼續 參照「第2圖」。本實施例與第一實施例非常相似,主要的差別在 於運動設備200中沒有包含運動狀態分析模組以及運動方案選擇 模組,因此運動設備200需要透過伺服器完成本發明的運作。 當使用者使用跑步機進行運動時,首先可以透過跑步機的輸 入模組270輸入第一運動方案,使得跑步機中的運作控制模組 可以依據使用者所輸入的第一運動方案控制跑步機(步驟5〇1)。 跑步機的生理狀態測量模組210可以在使用者開始跑步後測 塁使用者的生理狀態資料(步驟51〇) ’而後,跑步機中的第一傳 輸杈組290可以透過網路等媒介,傳送生理狀態測量模組21〇所 測得的生理狀態資料以及運作控制模組25〇控制跑步機的運動情 況至伺服器3〇〇。 在词服器300中的第一傳輸模組390接收到跑步機所傳來之 生理狀態資料以及跑步機的運動情況後,伺服器300中的運動狀 態分析模組320可以依據運動設備之運動情況產生對應生理狀態 貧料的分析結果(步驟520)。接著,伺服器3〇〇中之運動方案選 201134516 雜讀結销㈣—物方錢_合使用者 輕使用者,選難組細觸㈣—運動方案並不 =使用者則運動方案選擇模組33〇可以進一步提 二:第一運動方案(步驟56〇),並透過伺服器300的第:; 換組將第二運財輯送給運動設備·。的第-傳輸 接收到由值$ 3GG所傳來之第二運動方案後,便可以依 =方^控制跑步機(步驟別),如此,使_樣可以合適的 運動方案進行達動。 值器300中的運動方案選擇模組·除了提供將跑步速度 提局為每小時12公里(心跳率低於建議5至1〇下)的第二運動 方案之外,也可以一併提供將跑步速度提高為每小15公里(心 跳率低於建議H)至15下)的第二運動方案,如此,若跑步機中 包含顯示模、组261以及輸入顯270,則顯示模組261將可以顯示 運動方案選擇模組330所提供的第二運動方案,也就是建議使用 #,將速度提高為每小時公里或ls公里,並顯示為顯示提高為 母j、時12公里/15公里的第二運動方案顯示「維持心肺以及腿部 肌内的速度」/「训練心肺以及腿部肌肉的跑步速度」的運動 資訊(步·驟581) ’但本發明所提之第二運動方案以及運動資訊都 不以上述為限。 在跑步機中的顯示模組261顯示伺服器300之運動方案選擇 模組330所提供的多個運動方案(步驟581)後,跑步機中的輸入 模組270可以提供使用者選擇其中一個第二運動方案(步驟 582)。例如,使用者可以透過輸入模組27〇選擇提高速度為每小 18 201134516 時15公里的第二運動方案,使得跑步機中的運作控制模組會 依據輸入模組270提供使用者輸入之第二運動方案控制跑步機(步 驟590) ’也就是說,在使用者預計跑步所剩餘的2〇分鐘内,運作 控制模組250會以每小時15公里的速度運作。 此外,在上述兩實施例之跑步機中,若包含虛擬實境模組 180/280 ’則在使用者仙跑步機跑步時,可以提供虛擬實境的影 像給顯示模組161/261,顯示模組161/261可以顯示虛擬實境的影 像例如’真實世界中某一跑步路線沿途的影像等,《是虛擬被 怪物追殺等影像,虛擬實境模組麵8〇也會在提供虛擬實境之影 像的同時,提供相對應的控制訊號至運作控制模組15〇/25〇,例如 ,跑步路線為上坡時’提供加重跑步所需的力道的控制訊號,或 是被怪物追進時’提供加_步速度的㈣賴給運作控制模組 150/250 ’使得運作控制模組15〇/25〇可以依據控制訊號加重在跑 步機上跑步·的力道、歧域跑步速度等,_,虛擬實境 板組膽/280也會不斷判斷運動狀態分析模組12〇/32〇所產生的分The LSI 12 201134516 control module 150 can control the running machine according to the first motion plan input by the user (step 501), that is, control the treadmill to operate at a speed of 1 km. After the user starts running with the treadmill, the physiological state measurement module can measure the physiological state data of the user (step 510). In the present embodiment, it is assumed that the physiological measurement module 1 is embedded in the grip of the treadmill, but the present invention is not limited thereto. The user can hold the metal piece exposed by the physiological state measuring module 110 on the grip of the treadmill during running, so that the physiological state measuring module 110 can measure the heart rate (physiological state data) of the user, for example, 66 per minute. In addition, the physiological state measurement module 110 may also be a measuring device attached to the arm, and after measuring the heart rate of the user, the heart rate of the chat is transmitted to the treadmill by wireless transmission technology such as Bluetooth. . After the physiological state measurement module 110 measures the physiological state data of the user (step 510), the motion state analysis module 120 can generate an analysis result corresponding to the physiological state data according to the motion condition of the exercise device (step 520). In this embodiment, it is assumed that the user has passed the running for 10 minutes, and within 10 minutes, the heart rate of the user measured by the physiological state measurement module 110 in the first five minutes is from the next minute. Gradually increase to 12〇τ per minute, the user's heart rate measured in the last five minutes is about 120 per minute, then the motion state analysis module k 120 will be based on the user's use of the lion equipment (10) minutes. The age measurement model (4) 测量 measured by. Turn (every minute (four) τ) for analysis, if the motion state analysis of her 12G pre-stored recommended heart rate is between 13 () and 15 (), the motion state analysis module 120 will produce an analysis result that the exercise intensity is too low. Its Yin, for the results of the analysis is not limited to the above. In addition, if the user inputs the basic data of the individual through the input module 170, 201134516, for example, height 165, weight 60 kg, female, 22 years old, the exercise state analysis module 120 can obtain the pre-stored heart rate according to the above basic data. In the comparison table, find the range of heart rate recommended by a 22-year-old woman with a value of 21.8 when running, for example, between 12〇-140, so that the motion state analysis module 120 can be based on the movement of the exercise equipment. The user's basic data and physiological state data produce an analysis result with moderate exercise intensity. & After the motion state analysis module 120 generates the analysis result corresponding to the physiological condition data according to the motion condition of the motion device (step 520), the motion plan selection module can generate the analysis wire generated according to the green state group 12 Whether the first motion T case is suitable for the user (step 530). In the present embodiment, the analysis result of the motion state knife demoulding, 'and 120 is expressed as the exercise intensity is too low, the exercise plan selection module 13G is lying down (four) - the job plan is not suitable for the Lang, so, the exercise program Selecting the module excitation may further provide a second motion scheme corresponding to the analysis result (step 560). It is assumed that in the present embodiment, the storage module 14 stores a lion scheme suggestion table as shown in "Fig. 3", and the sports _ selection module (10) can be based on the recommended heart rate (13G) and the measured heartbeat. The difference (_10) of the rate record (120) is searched for the matching range (·5~ -10) in the difference scheme of the motion plan recommendation, and is read by the reference sentence block 201 That is to say, the speed of the lucky money group is the second movement plan of 12 km (10+2) of the mother hour. If the prompting module 165 is included in the y machine, the prompting module 165 can output (not the U step 570) at this time (the motion scheme is selected; the group 13G touches the lion scheme is not suitable for the user). It is assumed that the prompting module 165 will display through the display module 161 that the heart rate is lower than the recommended value of the motion, and it is recommended to increase the speed to 12,14,14,345,345 per hour. The input pool 165 does not display the prompt in the motion scheme. After the module 130 provides the second motion scheme (step 56〇), the operation control module 15G controls the treadmill (steps) by the second motion scheme provided by the 3G, ie, In the remaining 20 minutes of the manufacturer's expected running, the operation control module 15 will operate at a speed of 12 kilometers per hour, so that the user can exercise in a suitable exercise program. The split fruit silk is moderate in exercise intensity. Therefore, the exercise plan selection group 13 () will touch the first-le scheme and be suitable for the user, then the face-reading display 130 will not provide the second exercise plan, and the operation control module 150 It will be like the first sports program of Kangyun to continuously control the treadmill (step 5〇ι). In addition, according to the motion plan suggestion table 4 shown in "Fig. 3", the exercise plan selection module 130 provides the running speed. Increase to In addition to the second exercise program with an hourly 12km (heartbeat rate below the built-in level of 5-5), it is also possible to provide a running speed of 15km per hour (heartbeat rate is lower than recommended 1〇-15) The second φ second motion scheme, such that if the treadmill includes the display module 161 and the input module 170 ′, the display module 161 can display the first motion scheme provided by the motion scheme selection module 13 ,, that is, the suggestion The user increases the speed to 12 km or 15 miles per hour and displays a second exercise plan showing that the face is I? km/15 km per hour. "Shows the running speed of the heart and lungs and the leg muscles" / "Training The exercise information of the running speed of the heart and lungs and the leg muscles (step 581), but the second exercise plan and the exercise information proposed by the present invention are not limited to the above. After the display module 161 displays the plurality of motion schemes provided by the motion scheme selection module 130 (step 581), the input module 170 can provide the user to select one of the 201134516 second motion schemes (step 582). For example, the user can select a second motion plan that increases the speed to 15 kilometers per hour through the input module 17 , so that the operation control module 150 provides a second motion scheme control input by the user according to the input module 170 - the treadmill (Step 590), that is, the operational control module 150 operates at a speed of 15 kilometers per hour for the remaining 2 minutes of the user's expected running. Hereinafter, the operation of the present invention will be described with reference to the system architecture diagram of the operation control based on the physiological state data of the present invention in "Fig. 4". As shown in "Fig. 4", the present invention includes a sports device 200 and a server 300. The sports device 2〇〇 mainly includes a physiological state measurement module 210, an operation control module 25〇, a first transmission module 290, and an additional display module 261 and a virtual reality module 28〇; the server 300 The utility model mainly comprises a motion state analysis module 32, a motion plan selection module 3, a second transmission module 390, and an additional storage module 34 and a prompt module 365. The first transmission module 290 is responsible for transmitting data from the mobile device 2 to the server 3', and the second transmission module 390 is responsible for transmitting the data from the server 3 to the mobile device 200. In addition, the physiological state measurement module 21, the operation control module 250, the display module 261, the motion state analysis module 32, and the motion plan selection module 33 are substantially respectively related to the physiological state in "Fig. 1". The measurement module 11 (), the operation control module 丨 5 〇, the display module 165, the motion state analysis module 12 〇, and the motion plan selection module 13 〇 are the same, and the difference is that the physiological state measurement module 21 transmits the first The transmission module 29〇 receives the measured physiological state data transmitted by the mobile device 2〇〇 through the second transmission module 39〇, and selects the physiological state data selected by the mobile device 2〇〇. The module 33 transmits the second motion scheme to the motion device through the second transmission module 39, and the operation control module 25A and the display module M1 receive the server 3 through the 201134516 first transmission module 190. The second exercise program. It is particularly worthwhile to mention that the operation control module 25Q transmits the motion of the motion device 200 to the server 3 through the first transmission module (10), and the motion scheme selection module 330 transmits the second transmission module 39. Receiving the motion of the exercise device 200 transmitted by the exercise device 2〇〇. The input module 270, the virtual reality module 280, the storage module 34〇, and the prompt module 161 are respectively connected to the input module 17〇, the virtual reality module 9(9), and the storage module 140 in the “first image”. And the prompt module 365 is completely the same, so it will not be described again. Next, the operation system and method of the present invention will be explained in the second embodiment. Please continue to refer to "Fig. 2". This embodiment is very similar to the first embodiment. The main difference is that the motion device 200 does not include the motion state analysis module and the motion plan selection module. Therefore, the motion device 200 needs to complete the operation of the present invention through the server. When the user uses the treadmill to exercise, the first motion plan can be first input through the treadmill input module 270, so that the operation control module in the treadmill can control the treadmill according to the first motion plan input by the user ( Step 5〇1). The physiological state measurement module 210 of the treadmill can measure the physiological state data of the user after the user starts running (step 51〇). Then, the first transmission group 290 in the treadmill can transmit through the medium such as the network. The physiological state measurement module 21 measures the physiological state data and the operation control module 25〇 controls the movement of the treadmill to the server 3〇〇. After the first transmission module 390 in the word processor 300 receives the physiological state data transmitted from the treadmill and the movement condition of the treadmill, the motion state analysis module 320 in the server 300 can be based on the motion of the motion device. An analysis result corresponding to the physiological state lean material is generated (step 520). Then, the motion plan in the server 3〇〇 select 201134516 miscellaneous reading and closing (four) - object money _ user light user, select difficulty group fine touch (four) - motion program is not = user motion plan selection module 33〇 can further mention two: the first exercise plan (step 56〇), and through the server 300:; change the group to send the second money to the sports equipment. The first transmission - after receiving the second motion plan transmitted by the value $3GG, the treadmill can be controlled according to the = square (steps), so that the _ can be activated by the appropriate motion scheme. The motion plan selection module in the valuer 300 can also provide the running together in addition to the second exercise plan that provides the running speed to 12 kilometers per hour (the heart rate is lower than the recommended 5 to 1 〇). The speed is increased to a second motion plan of 15 kilometers per little (heartbeat rate is lower than the recommended H) to 15 times. Thus, if the treadmill includes the display mode, the group 261 and the input display 270, the display module 261 will be able to display The second motion plan provided by the exercise plan selection module 330, that is, the recommended use #, increases the speed to kilometers per hour or ls kilometers, and is displayed as a second exercise showing an increase to the parent j and 12 km/15 km. The plan shows "sports speed in the heart and lungs and the muscles in the legs" / "training the running speed of the heart and lungs and the muscles of the legs" (step 581) 'But the second exercise program and sports information mentioned in the present invention are Not limited to the above. After the display module 261 in the treadmill displays a plurality of motion schemes provided by the motion scheme selection module 330 of the server 300 (step 581), the input module 270 in the treadmill can provide the user to select one of the second Exercise plan (step 582). For example, the user can select a second exercise plan that increases the speed to 15 km per 18 201134516 through the input module 27, so that the operation control module in the treadmill provides the second input of the user according to the input module 270. The exercise program controls the treadmill (step 590). That is, the operational control module 250 operates at a speed of 15 kilometers per hour for the remaining 2 minutes of the user's expected running. In addition, in the treadmills of the above two embodiments, if the virtual reality module 180/280′ is included, the virtual reality image can be provided to the display module 161/261 when the user runs on the treadmill, and the display mode is displayed. Group 161/261 can display virtual reality images such as 'images along a running route in the real world, etc.," is a virtual image that is chased by monsters, and virtual reality module faces will also provide virtual reality. At the same time, the corresponding control signal is provided to the operation control module 15〇/25〇. For example, when the running route is uphill, it provides a control signal for increasing the strength required for running, or when the monster is chasing it. Providing the _ step speed (4) to the operation control module 150/250 'so that the operation control module 15 〇 / 25 〇 can increase the strength of the running on the treadmill according to the control signal, the speed of the running speed, etc., _, virtual The real board group biliary/280 will also continuously judge the points generated by the motion state analysis module 12〇/32〇.
=果是狀應出當下的獅方_臨界,細讓侧者的運動 在適合的减。假設在上述兩實施例中,建議之心跳率 分鐘12G τ至⑽下’賴_的峨柯合心跳率 =圍的爛,也就是心鱗高於135⑽儀 供加重在财機上跑步所需的力道i 疋加_步速度的控制賴給運作控麵組15〇/25〇。 T'上所述彳知本發明與先前技術之間的差異在於且有依據 之運嫩赵輸爾、敝分纖後,依據 果觸第―運動方案不適合伽者時,提供對應分析結果 201134516 之第-運動方S ’並依據第二運動方案控制運動設備之技術手 段’藉由此-技術手段可哺決先前技術所存在制者無法由測 量出之生理狀㈣料,在運動設備上設定出合適的運動方案的問 題,進而達成減少者制勒設備所造成之運祕害的技術 功效。 再者,本發明之依據生理狀態資料進行運作控制之方法,可 實現於硬體、倾或硬贿倾之組合巾,村在電齡統中以 集中方式實現細關猶麟於轩互叙電齡統的分 式實現。 雖然本發贿财之實财式如上,惟所述之内容並非用以 直接^本發明之補賴翻々何本發騎顧術領域中且 有通常知識者,在不麟本發騎揭露之精神和範_前提下, 對本發明之實蘭形式上及細節上作些狀更_飾,均屬 =之專利保護顧。本發明之專利保護範圍,仍須以所附之 凊專利範圍所界定者為準。 【圖式簡單說明】 運 弟1圖為本發明所提之依據生理狀態資料進行運作控制之 動設備之元件示意圖。 運作控制之方 第2圖為本發明所提之依據生理狀態資料進行 法流程圖。 提之獅方_表之示意圖。 弟4圖為本發明所提之依據 、 統架構圖 【主要元件符號說明】 统架槿圖。 狀心貝枓進仃運作控制之系 201134516 100 運動設備 110 生理狀態測量模組 120 運動狀態分析模組 130 運動方案選擇模組 140 儲存模組 150 運作控制模組 161 顯示模組 165 提示模組 170 輸入模組 180 虛擬實境模組 200 運動設備 210 生理狀態測量模組 250 運作控制模組 261 顯示模組 270 輸入模組 280 虛擬實境模組 290 第一傳輸模組 300 伺服器 320 運動狀態分析模組 330 運動方案選擇模組 340 儲存模組 365 提示模組 390 第二傳輸模組 400 運動方案建議表 m 21 201134516 410 差值櫚位 420 參考調整攔位 步驟501依據第一運動方案控制運動設備 步驟51〇提供使用者测量生理狀態資料 步驟520依據運動設借夕、笛主 脊之運動^況產生對應生理狀態資料之 分析結果 步驟53G依據分析結果觸第—= The fruit is the shape of the current lion _ critical, fine to allow the side of the movement in the appropriate reduction. Assume that in the above two embodiments, the recommended heart rate is 12G τ to (10). The 心 合 合 合 = = = = = = = = = = = , , , , , , , , , , 135 135 135 135 135 135 135 135 135 135 135 135 135 135 135 135 135 135 135 135 135 The control of the force path i _ step speed depends on the operation control group 15 〇 / 25 〇. The difference between the present invention and the prior art is that the difference between the present invention and the prior art is that there is a basis for the transmission of the tenderness of the Zhao and the sputum, and the corresponding analysis result is provided according to the fruit-moving scheme that is not suitable for the gamma. The first-sports side S' and the technical means for controlling the sports equipment according to the second motion scheme can be relied on by the technical means that the makers of the prior art cannot be determined by the measured physiological condition (four) materials, and are set on the exercise equipment. The problem of a suitable exercise program, in turn, achieves the technical effect of reducing the secrets caused by the device. Furthermore, the method for controlling the operation according to the physiological state data of the present invention can be realized in a combination of a hard body, a dumping or a hard bribe, and the village realizes the fineness in a centralized manner in the electric age system. Age-based fractional implementation. Although the actual form of the bribe is as above, the content is not used to directly supplement the invention and the general knowledge of the person who is in the field of riding and riding. _ Under the premise, the form and details of the real blue of the present invention are more _ decorative, are the patent protection of =. The scope of the invention is to be determined by the scope of the appended claims. [Simple diagram of the diagram] Figure 1 is a schematic diagram of the components of the mobile device based on the physiological state data. The operation control unit Fig. 2 is a flow chart of the method according to the physiological state data of the present invention. A schematic diagram of the lion's _ table. Brother 4 is the basis of the invention, and the architecture diagram [Description of the main components]. The system of the heartbeat operation control 201134516 100 sports equipment 110 physiological state measurement module 120 motion state analysis module 130 motion plan selection module 140 storage module 150 operation control module 161 display module 165 prompt module 170 Input module 180 virtual reality module 200 sports device 210 physiological state measurement module 250 operation control module 261 display module 270 input module 280 virtual reality module 290 first transmission module 300 server 320 motion state analysis Module 330 motion scheme selection module 340 storage module 365 prompt module 390 second transmission module 400 motion scheme suggestion table m 21 201134516 410 difference palm position 420 reference adjustment block step 501 controls the motion device according to the first motion scheme Step 51: providing the user to measure the physiological state data, step 520, according to the motion setting, the motion of the main ridge of the flute to generate the corresponding physiological state data analysis result, the step 53G is based on the analysis result -
步驟提供對應分析結果之第二=^使用者 步驟570輸出提示訊息 々茶 步驟則顯示第二運動方案及對庫之 步驟585提供選擇第二運動方案、運動-貝訊 步驟依據第二運動方案控制運動設備The step provides a second analysis corresponding to the analysis result, the user step 570 outputs a prompt message, the tea step displays the second motion plan, and the step 585 of the library provides a selection of the second motion plan, and the motion-bein step is controlled according to the second motion scheme. Sports equipment
I 22I 22