201021760 六、發明說明: 【發明所屬之技術領域】一 本發明大體上係關於當一人處於一浪漫心情時,用於自 動產生一浪漫氛圍之方法及裝置。本發明大體上亦係關於 用於偵測一伴侣是否處於該性心情之一方法。 【先前技術】 有許多東西可阻礙一人處於性心情。對於性,熟知的障 礙如下列實例:關於該人的想法之太多擔心阻礙他/她放 鬆’冰ά的身體(冰涼的聊或手)。此等偈促必須在即使開 始考慮性之前被克服;如同臨床基礎原理陳述:首先放鬆 及伸直,然後變得興奮(重點在性喚起)。對於夫妻,會有 兩人在相同時刻具有不同心情的問題’然而對於一伴侣困 難的是衡量另一伴侣之心情等級。 因此,有需要容許一伴侣以一簡單方式偵測/感知他/她 伴侶的心情之一方法及裝置,因為此對於在一性關係中之 伴侣之互相理解將極有利。 聲稱可發一人的心情信號之裝置已被提出。舉例而言, 美國專利2007/0266479揭示具有藉由改變顏色而回應於皮 膚溫度之心情石之内衣。此方法之一劣勢係使用者首先必 須穿上本身可被認作發信號準備動作之此内衣。此外,一 劣勢係該心情信號(亦即,該心情石之顏色)在黑暗中不可 見。 本發明採用一不同方法。 在一性關係中之一特定問題涉及交流。對於一伴侣困難 142249.doc •4· 201021760 的是明確地詢問另一伴侣他/她的心情。而且,此明確問 題很可能破壞另一伴侣的心情。因此,實際上,一伴侶藉 由撫摸而接近另一伴侣。若另一伴侣積極回應,可順其自 然。然而,一問題為通常很難解讀該伴侣的回應,且一錯 誤的解譯可導致伴侣彼此沮喪及不愉快。此外,所需的是 .藉由當此等人之至少一者處於浪漫心情時自動產生—浪漫 氛圍,及/或為了引起其等兩者之一浪漫心情而產生一浪 漫氛圍,可提高兩人之間之一關係之浪漫程度。 罾 【發明内容】 本發明之一目的係提供該等上述問題之一解決方法。 在一態樣中,本發明提供一種藉由測量及解譯一人對於 伴伯的撫摸的身體反應而用於偵測該人的心情之一方法。 在另一態樣中,本發明提供一種藉由測量及解譯一人對 於伴侣的撫摸的身體反應而可偵測該人的心情之一系統。 舉例而言,該人的身體反應之分析可藉由一光信號而傳 籲 送回到該伴伯。而且,舉例而言,可能的是增加氣氛裝置 開啟光、音樂、視訊、按摩器等等。產生一浪漫氛圍可藉 由合適的装置而完成。舉例而言,開啟一音樂播放器播放 一浪漫音樂、在一監測器或螢幕上顯示一浪漫電影、房間 内的光線可被設定在一浪漫等級(調暗亮度)及顏色、觸發 方香裝置以將一些浪漫香氣散布在該房間内等等。此等裝 置為已知,且當然可由任何該等人視所需而開啟。然而, 若此等人係捲入某種浪漫(或接近浪漫)邂逅,為了開啟— 些裝置而停止之細小行為正好足以破壞當下時刻。 142249.doc 201021760 為了克服此問題,並基於當―人係處於—浪漫心情時他/ 她或許將開始撫摸另一人之想法,本發明提出一周圍氣氛 設定系統,其包括至少一上述類型的心情設定裝置,及用 於偵測該等人之間之實體接觸之一偵測器。當此等人撫摸 彼此的皮膚時,此由該系統解譯為一浪漫步驟且作為回 應,該系統之一控制器以一預定方式開始任何或所有該等 裝置。 更加有利的詳盡的細節在該等附屬技術方案中提到。 【實施方式】 本發明之此等及其他態樣、特徵及優勢將藉由下述關於 該等圖式之一個或多個較佳實施例而進一步解釋,在該等 圖式中,相同的參考數字指示相同或類似零件。 圖1示意性地顯示根據本發明之一心情偵測系統丨。該系 統1大體上包括一身體徵兆偵測裝置丨0、一身體接觸偵測 器30、一控制裝置2〇及由該控制裝置2〇控制的一增加氣氛 輸出裝置40。 該身體徵兆偵測裝置10為可擷取指示一喚起狀態之身體 信號且可輸出表示該等身體信號之一電子可處理信號之一 裝置。 應注意此類型裝置本身為已知。因此,此處可省略一詳 盡的描述。 舉例而言,該身體徵兆偵測裝置1〇可藉由感知一身體之 一個或多個生理參數而操作。實驗已顯示一人對於撫摸的 142249.doc 201021760 回應引起生理參數之變化。此係在圖2中繪示,圖2係顯示 一女性透過獲得喚起而對她伴侣的撫摸作出反應的一生理 回應之一實例之一圖表。在左上側的該垂直箭頭指示給予 該撫摸的時刻。曲線2〇 1指示皮膚傳導等級。曲線2〇2指示 體表皮膚溫度(在小拇指上)。曲線203指示血量脈博原始資 料。曲線204指示呼吸原始資料。曲線2〇5指 示心率。曲線 206指示心跳振幅。曲線2〇7指示呼吸率。自圖2清晰可見 的是該等生理參數在給予該撫摸之後不久(在自1秒至5秒 至2分至3分之一時段内)變化。 儘管圖2中之該等曲線係自基礎生理信號而記錄,亦可 能的是藉由測量更複雜的生理信號而測量對於該伴侣的撫 摸之該回應。此一測量之一實例係對於該撫摸事件之面部 表情之分析。儘管面部表情變化主要係特定肌肉收縮及放 鬆之一組合(如可使用肌電圖學[EMG]技術測量),極其實 用的是使用一簡單的網路攝影機及一影像處理系統分析在 臉上產生的該表情:可容易認出的是作為對於該撫摸之一 回應’某人疋否微笑或敵眉(即使輕微地)。由於此原因, 該身體徵兆偵測裝置10之一極其直接了當的實施例將僅使 用一網路攝影機及影像處理軟體以偵測該撫摸及藉由監測 該伴侣面部表情變化而解譯他/她的情緒回應。 因此’大體上’該身體徵兆偵測裝置10之該硬體可包括 一個或多個感測器’如一心率感測器、一皮膚傳導或測 器、一肌電圖感測器'一皮膚溫度感測器或舉例而言用於 面部表情測量之一網路攝影機。 142249.doc 201021760 對於债測兩人體之間之身體接觸些執行可用於該身 體接觸偵測器30。在-實施例中’該身體接觸偵測器30可 包括-相機及處理自該等身體偵測接觸之該相機獲得的影 像之^像處理系統。在另—實施例中,該身體接觸债測 器30可包括具有叙合至任一身體的電極之—電容感測器或 電二感測器.s __伴侣撫摸另_個時,該接觸感測器之該 電+增加及/或該感測器之該電阻降低。肖等電極可直接 麵。至4等身體或配置在衣服巾。亦可能的是該感測器係 定位在與用於調情之—潛在位置相關聯的—特定位置:舉 例而5 W在後文更詳細地解釋,-電容感測器之電極 可配置在-床中、在—毯中、在—床單中等等。 該控制裝置20,將處理自該身體徵死偵測裝置1〇並在一 身鱧信號輸入21獲得的該(等)信號,舉例而言,該控制裝 置20可包括一微處理器或相似物且因此該控制裝置2〇將在 後文中被指作處理器20或控制器2〇。在此方面,應注意由 於除了該撫摸經歷外的原因亦可導致一生理變化。為了辨 別由任何其他原因造成的一生理變化,該處理器2〇具有一 身體接觸輸入23,該身體接觸輸入23用於接收來自該身體 接觸偵測器30之一信號並指示該兩伴侣撫摸彼此。應注意 該身體接觸偵測器30可提供測量信號,該處理器2〇需要解 譯該等測量信號以判定是否具有身體接觸,但亦可能的是 測量信號之該處理係經由該身體接觸偵測器3 〇本身而完 成’使得該身體接觸偵測器30提供具有值「〇」用於「無 接觸」或值「1」用於「接觸」之一雙重信號。 142249.doc • 8 - 201021760 如由該身體接觸仙㈣所指,直到該兩伴侣撫摸,該 處理器20將忽略自該身體徵兆摘測裝置㈣在其身體信號 輸入2丄獲得的該(等)信號,或至少對此等信號附予低價 • I。亦可能的是該處理11 2G及該身體徵錢職置10係整 纟的,且該身體徵幻貞測裝置㈣僅在由該身趙接觸请測 器30觸發之後開始操作。在此方面,應注意的是相依於待 考慮的該生理參數,在該撫摸事件與對於該撫摸事件之該 測置的生理反應之間具有一些延遲/滞後時間。此延遲通 常係在大約1秒至3秒(例如對於皮膚傳導回應及心率)直至 大約2分至3分(例如用於在一手指上之體表皮膚温度測幻 級由於此原因,在本發明之一較佳實施例中該接觸感 測器必須可在3秒内開始該生理感測器系統,且更佳在少 於1秒内》 更應注意的是該處理器20較佳具有一基線,亦即該(等) 生理參數之一參考值:在分析該(等)生理參數時此等將 參與該(等)參考值比較。此(等)參考值可在撫摸之後立即收 集舉例而s在撫摸之後該第一秒。較佳地,該(等)參考 值係在該撫摸事件之前收集。為此目的,該處理器2〇較佳 係經設計以在一特定的時間間隔(舉例而言3分)且在一記憶 體5〇中記錄自該身體徵兆偵測裝置1〇接收的其輸入信號。 比較舊的測量將在該記憶體5〇中被刪去。當該等伴侣撫摸 時,該處理器20開始該測量,同時保持在該記憶體5〇中之 該基線。即使該撫摸中斷,該測量仍持續至少一預定時間 間隔,舉例而言3分鐘。若該等測量在撫摸之後立即收集 142249.doc 201021760 僅作為參考值,可使用相同的記憶體5〇。 一特定的生理發展,諸如舉例而言心率或血壓之升高, 可由不同緣故引起,諸如舉例而言害怕、驚恐、焦慮。因 此,一生理參數本身未必可靠地指示該性心情。為了獲得 可靠的指不,該處理器2〇經由整合在該處理器2〇上之軟 體即時分析與一撫摸事件關聯之該等身體信號,以判定該 撫摸經歷之該情緒影響,且更特別的以判定該伴侣在一特 別時刻是否具有任何性興趣。當該生理參數之時間分佈 (亦即自該撫摸事件之後,作為時間之一函數之該參數之 該發展),對應於已建立的該生理參數之一預定參考分 佈,該預定參考分佈對應於一性心情(性喚起)時,可安全 得出所考慮的該人處於該心情之結論,尤其是當此係經由 其他生理參數之該時間分佈證實時。因此,判定該人是否 對性感興趣之該可靠性根本上係結合該撫摸事件之該偵 測’且隨著聯合考慮更多參數而增加。 相依於此判定結果,該處理器2〇可操作該增加氣氛輸出 裝置40。可假定的是開始該撫摸之該伴侣(指作該撫摸者) 已經處於該性心情。該處理器2〇判定是否該被撫摸的伴侣 (指作該被撫摸者)亦處於該性心情,亦即處於一喚起的狀 態’或可行的是該被撫摸者將進入該適當的性心情,亦即 不久可被喚起。 若此判定結果為肯定,舉例而言,該系統1可經由一光 信號將此傳達至該撫摸者(且亦可能至該被撫摸者)。為此 目的,該受處理器控制的輸出裝置40可包括一個或多個光 142249.doc •10· 201021760 此等光源之顏色可由該處理器20控 ’、彔色传號可鼓勵該撫摸者繼續刺 源,舉例而言LED , 制。接著,舉例而言 激該被撫摸者。亦可能的是該 進入性心情。為此目的,該輸 的、引起心情刺激效果之一個 等裝置可為用於顯示一浪漫相 系統鼓勵或幫助該被撫摸者 出裝置40可包括提供—感覺 或多個裝置。舉例而言,此 片之一裝置、用於播放浪漫 音樂之一裝置、用於播放一令人興奮的電影之一裝置、用201021760 VI. DESCRIPTION OF THE INVENTION: TECHNICAL FIELD OF THE INVENTION The present invention generally relates to a method and apparatus for automatically generating a romantic atmosphere when a person is in a romantic mood. The present invention is also generally directed to a method for detecting whether a companion is in a sexual mood. [Prior Art] There are many things that can prevent a person from being in a sexual mood. For sex, well-known obstacles are as follows: too much worry about the person's thoughts prevents him/her from loosening the 'ice's body (cold chat or hand). These urges must be overcome even before they begin to consider; as the clinical rationale states: first relax and straighten, then become excited (emphasis on sexual arousal). For couples, there are two people who have different moods at the same time. However, it is difficult to measure the mood level of another partner. Therefore, there is a need for a method and apparatus for allowing a partner to detect/perceive his/her partner's mood in a simple manner, as this would be advantageous for mutual understanding of the partners in a sexual relationship. A device claiming to send a person's mood signal has been proposed. For example, U.S. Patent No. 2007/0266479 discloses an undergarment having a mood that responds to skin temperature by changing color. One of the disadvantages of this method is that the user must first wear the underwear that itself can be considered as a signal preparation action. In addition, a disadvantage is that the mood signal (that is, the color of the mood stone) is invisible in the dark. The present invention employs a different approach. One of the specific issues in a sexual relationship involves communication. It is difficult for a partner 142249.doc •4· 201021760 is to explicitly ask another partner his/her mood. Moreover, this clear issue is likely to undermine the mood of another partner. Therefore, in reality, a partner approaches another partner by touching. If another partner responds positively, you can go with it. However, one problem is that it is often difficult to interpret the partner's response, and a misinterpretation can cause the partners to be frustrated and unhappy. In addition, what is needed is to create a romantic atmosphere by automatically creating a romantic atmosphere when at least one of the persons is in a romantic mood, and/or to create a romantic atmosphere in order to cause one of them to be romantic. The degree of romance between one of the relationships. SUMMARY OF THE INVENTION One object of the present invention is to provide a solution to one of the above problems. In one aspect, the present invention provides a method for detecting a person's mood by measuring and interpreting a person's physical response to a person's stroke. In another aspect, the present invention provides a system for detecting a person's mood by measuring and interpreting a person's physical response to a partner's stroke. For example, the analysis of the person's physical response can be transmitted back to the companion by an optical signal. Moreover, by way of example, it is possible to add an atmosphere device to turn on light, music, video, massager, and the like. Creating a romantic atmosphere can be accomplished by a suitable device. For example, turning on a music player to play a romantic music, displaying a romantic movie on a monitor or screen, the light in the room can be set to a romantic level (darken brightness) and color, triggering the fragrance device to Spread some romantic aromas in the room and more. Such devices are known and can of course be turned on by any such person as desired. However, if such people are involved in some kind of romantic (or near-romantic) embarrassment, the small act of stopping to turn on some of these devices is just enough to destroy the moment. 142249.doc 201021760 In order to overcome this problem and based on the idea that he/she may start to caress another person when the human being is in a romantic mood, the present invention proposes an ambient atmosphere setting system comprising at least one of the above types of mood settings A device, and a detector for detecting physical contact between the persons. When such persons touch each other's skin, this is interpreted by the system as a romantic step and as a response, one of the controllers of the system begins any or all of the devices in a predetermined manner. More advantageous and detailed details are mentioned in these subsidiary technical solutions. The above and other aspects, features and advantages of the present invention will be further explained by the following description of one or more preferred embodiments of the drawings, in which the same reference Numbers indicate the same or similar parts. Fig. 1 schematically shows a mood detection system according to the present invention. The system 1 generally includes a body sign detecting device 丨0, a body contact detector 30, a control device 2A, and an added atmosphere output device 40 controlled by the control device 2〇. The body sign detecting device 10 is a device that can capture a body signal indicating an arousal state and can output one of the electronically processable signals representing one of the body signals. It should be noted that this type of device is known per se. Therefore, a detailed description can be omitted here. For example, the body sign detecting device 1 can operate by sensing one or more physiological parameters of a body. Experiments have shown that one person's response to the stroke of 142249.doc 201021760 caused a change in physiological parameters. This is illustrated in Figure 2, which is a graph showing one example of a physiological response to a woman's response to her partner's stroke by arousing the arousal. The vertical arrow on the upper left side indicates the moment at which the stroke is given. Curve 2〇 1 indicates the level of skin conduction. Curve 2〇2 indicates the surface skin temperature (on the little finger). Curve 203 indicates the raw data of the blood volume. Curve 204 indicates the breath raw material. Curve 2〇5 indicates the heart rate. Curve 206 indicates the heartbeat amplitude. Curve 2〇7 indicates the breathing rate. It is clear from Figure 2 that these physiological parameters change shortly after the stroke is given (in the period from 1 second to 5 seconds to 2 minutes to 1/3). Although the curves in Figure 2 are recorded from the underlying physiological signals, it is also possible to measure the response to the partner's touch by measuring a more complex physiological signal. An example of such a measurement is an analysis of the facial expression of the stroke event. Although facial expression changes are primarily a combination of specific muscle contractions and relaxations (as measured by electromyography [EMG] techniques), it is extremely useful to analyze the face using a simple webcam and an image processing system. The expression: easily recognizable as a response to one of the strokes 'someone's no smile or enemy eyebrows (even slightly). For this reason, an extremely straightforward embodiment of the body symptom detecting device 10 will use only a webcam and image processing software to detect the touch and interpret the partner by monitoring the facial expression changes. Her emotional response. Thus, the body of the body sign detecting device 10 may include one or more sensors such as a heart rate sensor, a skin conduction or measuring device, and an electromyography sensor's skin temperature. A sensor or, for example, a webcam for facial expression measurement. 142249.doc 201021760 The implementation of the body contact between the two bodies for debt testing can be used for the body contact detector 30. In an embodiment, the body contact detector 30 can include a camera and an image processing system that processes images obtained from the camera that the body detects contact with. In another embodiment, the body contact detector 30 can include a capacitive sensor or an electrical sensor having an electrode that is incorporated into either body. The s___ mate touches another _, the contact This electrical + increase of the sensor and/or the resistance of the sensor is reduced. Electrodes such as xiao can be directly surfaced. To 4 or other body or configured in a towel. It is also possible that the sensor is positioned at a specific location associated with the potential location for flirting: for example and 5 W is explained in more detail later, the electrodes of the capacitive sensor can be configured in a bed In the middle, in the blanket, in the sheets, and so on. The control device 20 processes the (equal) signal obtained from the physical death detection device 1 and obtained from a body signal input 21, for example, the control device 20 may include a microprocessor or the like Therefore, the control device 2 will be referred to as the processor 20 or the controller 2 hereinafter. In this regard, it should be noted that a physiological change may also result from reasons other than the stroke experience. In order to discern a physiological change caused by any other reason, the processor 2 has a body contact input 23 for receiving a signal from the body contact detector 30 and instructing the two partners to stroke each other . It should be noted that the body contact detector 30 can provide measurement signals, and the processor 2 needs to interpret the measurement signals to determine whether there is physical contact, but it is also possible that the processing of the measurement signal is detected by the body contact. The device 3 is completed by itself to cause the body contact detector 30 to provide a dual signal having a value of "〇" for "no contact" or a value of "1" for "contact". 142249.doc • 8 - 201021760 As indicated by the physical contact with Sin (4), until the two partners touch, the processor 20 will ignore the (etc.) obtained from the body signal input device (4) Signals, or at least for these signals, are attached to low prices. It is also possible that the processing 11 2G and the body levy position are 10 series tidy, and the body illusion detecting device (4) is operated only after being triggered by the body Zhao contact detector 30. In this regard, it should be noted that depending on the physiological parameter to be considered, there is some delay/lag time between the stroke event and the physiological response to the measurement of the stroke event. This delay is typically between about 1 second and 3 seconds (eg, for skin conduction response and heart rate) up to about 2 to 3 minutes (eg, for body surface skin temperature measurement on a finger for this reason, in the present invention) In one preferred embodiment, the touch sensor must be capable of starting the physiological sensor system within 3 seconds, and more preferably in less than 1 second.) It should be noted that the processor 20 preferably has a baseline. , that is, one of the (etc.) physiological parameters: when analyzing the (etc.) physiological parameters, these will participate in the comparison of the reference values. This (etc.) reference value can be collected immediately after the stroke. Preferably, the first value is collected prior to the stroke. Preferably, the reference value is collected prior to the stroke event. For this purpose, the processor 2 is preferably designed to be at a particular time interval (for example 3) and the input signal received from the body symptom detecting device 1〇 is recorded in a memory 5〇. The older measurement will be deleted in the memory 5〇. When the partner touches The processor 20 starts the measurement while remaining The baseline in memory 5〇. Even if the stroke is interrupted, the measurement continues for at least a predetermined time interval, for example 3 minutes. If the measurements are collected immediately after the stroke, 142249.doc 201021760 is only used as a reference value, can be used The same memory 5. A particular physiological development, such as, for example, an increase in heart rate or blood pressure, can be caused by different causes, such as, for example, fear, panic, anxiety. Therefore, a physiological parameter itself does not necessarily reliably indicate In order to obtain a reliable indication, the processor 2 analyzes the body signals associated with a stroke event in real time via a software integrated on the processor 2 to determine the emotional influence of the stroke experience, and More particularly to determine whether the partner has any sexual interest at a particular time. When the time distribution of the physiological parameter (i.e., the development of the parameter as a function of time from the stroke event) corresponds to established One of the physiological parameters is a predetermined reference distribution, which is safe when it corresponds to a sexual mood (sexual arousal) Deriving the conclusion that the person in question is in the mood, especially when the time is confirmed by the other physiological parameters. Therefore, the reliability of determining whether the person is interested in sex is fundamentally combined with the stroke event. Detecting 'and increasing with joint consideration of more parameters. Depending on the result of the determination, the processor 2 〇 can operate the increased atmosphere output device 40. It can be assumed that the partner who started the stroke (referred to as the stroker) Is already in the mood. The processor 2 determines whether the touched partner (referred to as the person being touched) is also in the sexual state, that is, in an evoked state, or it is feasible that the person being touched will Entering the appropriate sexual mood, that is, can be aroused soon. If the result of this determination is affirmative, for example, the system 1 can communicate this to the toucher via an optical signal (and possibly to the person being touched) . For this purpose, the processor-controlled output device 40 may include one or more lights 142249.doc • 10· 201021760 The colors of the light sources may be controlled by the processor 20, and the color semaphore may encourage the continuation to continue Source of thorn, for example, LED, system. Next, for example, the person being touched. It is also possible to enter the sexual mood. To this end, the device that causes the mood stimulating effect can be used to display a romantic phase system to encourage or assist the strobe device 40 to include a sensation or a plurality of devices. For example, one of the devices, one for playing a romantic music device, one device for playing an exciting movie,
於發出一撩人香氣之一裝置、或甚至一刺激性慾裝置諸如 一按摩器或親密按摩器。 應注意的是該輸出裝置40較佳係由該處理器無線控制。 由於用於無線控制一裝置之合適方法本身為已知,舉例而 言藍芽、無線局域網(wifi),此處將省略無線控制之一更 加洋盡的描述。 若該判定結果並非很清晰或可靠,該系統1可選擇性地 建議該撫摸者再次嘗試撫摸該被撫摸者,或許以一更親密 的方式。在其中該受處理器控制的輸出裝置40包括一個或 多個光源之一情況下,此建議由一不同顏色(舉例而言紫 色)之一光信號傳達。 若該判定結果係不被該被撫摸者欣賞,為了避免受挫及 可能引起惱怒,該系統i將建議該撫摸者停止繼續。在其 中該受處理器控制的輸出裝置40包括一個或多個光源之一 情況下,此建議可由一不同顏色(舉例而言開始閃爍的一 紅色光)之一光信號傳達。 在一更詳盡的實施例中,該系統亦可指示該被撫摸者的 -11 - 142249.doc 201021760 心情與一臨限值之間之距離。對於此實施例,該輸出裝置 40可包括可顯示更多顏色(舉例而言,若該被撫摸者係僅 正好感覺處於該性心情時黃色或淺綠色)之一光源。 儘管執行該光方法係簡單的(例如以3色LED之形式:紅 色、綠色、藍色),應考慮不利的是該結果對於兩伴侣係 ’月晰可見的。此可為令人不愉快。在此情況下,將該結果 分散地報告僅回到—伴侣(較佳為該撫摸者)之一方法可為 較佳。對於一人之一分散的回饋可使用一音訊報告(亦即 在他們耳朵低語)、使用―套預定震動樣式(舉例而言使用 一電話震動器)、發射一短的文字訊息(再次至一電話等等 而實現。 經由該處理器20之該身體回應信號之該解譯係基於一演 算法,該演算法將該實際測量值(按例如3〇秒之時間窗正 常化)與隨著時間的過去可係固定的或變化的一個或多個 臨限值比fe。該&低及/或較高臨限值界定該~需區域。 以下將討論兩個例示性實施例,其中更加詳細地解釋該解 譯原則:實施例1產生一定性判斷,而實施例2產生一更先 進的、數字分級的判斷。 實施例1 :定性(是/否)判斷 圖3中繪示用於偵測一人的心情之一方法之一實例。在 此實例中,該測量的生理參數係在一特定時間窗内(假設3 分鐘)皮膚傳導回應之頻率(freqSCR)。^♦示心情_ (垂直軸)作為該皮膚傳導回應頻率(水平軸)之—函數之一 圖表。一皮膚傳導回應(SCR)係定義為在傳導中之一階段 142249.doc •12- 201021760 性增加,該皮膚傳導回應(SCR)之一實例係在圖2之曲線 201中顯示。一簡單繪示經由具有一雙重、固定的臨限值 準則(見兩垂直箭頭)之一階梯函數(見曲線301)給出。若該 .人的回應包括在此等範圍内,該人實質上處於該性心情; 否則’若該回應遠離此所需的框架,該人將不易進入該性 心情。該解譯過程結果可為「0=未處於該性心情」或「i = 處於§亥性心情」。在文獻中’ ·[傳導增加>〇.〇5 pSiemens}之 該準則經常用於偵測SCR。 ❹ 實施例2:更先進的、數字分級的判斷 在此更先進的實施例中,該人的實際測量值至該臨限值 之該距離用於產生一更加逐漸兩極的心情等級。例如,用 於最低分數之該極對應於「根本未處於該心情」且用於最 高分數之該極對應於「完全處於該心情-想要性」(例如在 一七點李克特(Likert)等級上之分數)。 該第一實施例具有更簡單之一優勢。該第二實施例具有 φ 一優勢,其中給予該系統之該使用者(亦即該撫摸者)在該 判斷過程中發揮一更加積極的作用(若他/她想要)之可能 性。該使用者可由他自己/她自己決定一給出他/她伴侣離 ‘ 該最佳性心情有多遠及因此需要多少努力以引起他/她伴 侣性慾望以繼續或限制之該資訊。以此方式,此實施例容 許更多自由以個性化’其中該使用者並非僅由該系統取 代,而是積極地促成關於他/她伴侣的性心情等級之最終 裁定/判斷,其最終可用於校準該(可選擇地自學)系統之目 的。 142249.doc -13· 201021760 由本發明提出的該系統將提高對於性關係之相互的理 解、親密及動機,藉此該系統可開始說明一個或多個伴估 的性心情等級。該最終目的為使伴侣彼此更加「同步」。 在一最簡單情況下’該系統將簡單地偵測一伴侣撫摸另 一個並將為做該撫摸之該伴侣提供回饋。 在一更先進情況下’該系統將偵測一伴侣撫摸另一個並 根據兩伴侣之狀態(亦即’可假定的是做該撫摸的該伴侣 處於該心情但較佳亦可從此伴侣之感覺建立此判斷)為兩 伴侣提供(分離)回饋。 在又一應用中’該系統將鼓勵兩伴估撫摸彼此並記錄該 等回應。在此情況下,該系統可建立兩者之該當前性心 情。 在下文中,關於圖4至圖7將在一周圍氣氛設定系統1〇〇 之背景下討論一身體接觸偵測器之若干特定實施例。圖5 示意性地顯示期望支樓兩人靠近彼此之一物體7〇。為了解 釋緣由,該物體70係描繪成一床,且在接下來的解釋中可 假定該物體70為包括一框架71、床墊72、床單73及毯74之 一床,但應注意的是該物體可以是任何其他類型的物體, 例如椅子、沙發或有靠背長椅或長沙發、地毯、地板等。 兩人A及E在圖中顯示為躺在床70上,但應注意的是相依 於該類型物體,他們可坐或站。 根據本發明’該床70具有一身體接觸偵測器3〇,該身體 接觸偵測器30包括連接至一控制裝置2〇之感測輸入23a、 23b的兩個傳導電極31、32。該控制器2〇及該等電極31、 142249.doc 14 201021760 32係進一步包括上述類型的至少一增加氣氛輸出裝置扣之 周圍氣氛設定系統100之一部分。該控制器2〇之一控制 輸出24係耦合至該裝置40之一控制輸入43,其耦合可合適 地包含一無線線路。為了緣示緣由,可假定該裝置4〇包含 周圍的光線及音樂。 在該等控制器輸入23a、23b之間之外部電氣迴路具有相 依於該等人A及E是否實體撫摸彼此而不同之特定性質。 ❹ 可包含一合適編程的微處理器之該控制器20係經設計及/ 或經編程以監測在其輸入23a、23b之該等迴路性質,且回 應於彳貞測指示A及E撫摸彼此之一變化,而以一預定方式 控制該增加氣氛輸出裝置40 :播放輕柔的浪漫音樂及調暗 該周圍的光線並轉換至溫暖的浪漫顏色。 儘管將在下文中更詳細地解釋該等電極3 1、3 2之性質, 應注意的是以上解釋及圖4之該示意圖假定A及E在床1〇上 之位置為先前已知:僅有兩個感測器31、32定位在該等已 φ 知位置下。然而’應注意的是每一感測器可具有對應於該 床表面積的一半之一尺寸。更應注意的是可具有分散在該 床表面之每人多個感測器,有效感測器係視A及E實際躺 的位置而定。 該等電極31、32可經設計用於與人的皮膚直接實體接 觸。在此情況下,用於在控制器輸入23a、23b處監測該等 迴路性質之一合適方法為測量輸入23a、23b之間之電阻。 實驗已顯示:無身體接觸時,輸入31、32之間之電阻實際 上為無窮大,而在身體接觸的情況下此電阻下降至幾千歐 142249.doc -15- 201021760 姆。然而此實施例預期該等使用者A及E係赤裸地躺在該 等感測器上’且此可多少降低一點自發性。A device that emits a scent of a person, or even an irritating libido device such as a massager or an intimate massager. It should be noted that the output device 40 is preferably wirelessly controlled by the processor. Since the appropriate method for wirelessly controlling a device is known per se, for example, Bluetooth, Wireless Local Area Network (WiFi), a more exhaustive description of one of the wireless controls will be omitted herein. If the result of the determination is not very clear or reliable, the system 1 can selectively suggest that the toucher try to touch the person being touched again, perhaps in a more intimate manner. In the case where the processor-controlled output device 40 includes one of the one or more light sources, this recommendation is conveyed by an optical signal of one of a different color, for example, purple. If the result of the decision is not appreciated by the person being touched, in order to avoid frustration and may cause anger, the system i will advise the person to stop continuing. In the event that the processor-controlled output device 40 includes one of the one or more light sources, the suggestion can be conveyed by an optical signal of a different color (e.g., a red light that begins to flash). In a more detailed embodiment, the system can also indicate the distance between the subject's -11 - 142249.doc 201021760 mood and a threshold. For this embodiment, the output device 40 can include a light source that can display more colors (for example, yellow or light green if the person being touched just feels right in the mood). Although the method of performing the light is simple (e.g., in the form of a 3-color LED: red, green, blue), it should be considered that the result is clearly visible to both companions. This can be unpleasant. In this case, it may be preferable to report the result discretely to only one of the partners (preferably the toucher). For one of the scattered feedbacks of one person, an audio report (ie, whispering in their ears), a set of predetermined vibration patterns (for example, using a phone vibrator), and a short text message (again to a call) can be used. The interpretation of the body response signal via the processor 20 is based on an algorithm that normalizes the actual measurement (for example, a time window of, for example, 3 seconds) with time. In the past, one or more threshold ratios may be fixed or varied. The &low and/or higher thresholds define the desired area. Two exemplary embodiments are discussed below, in more detail Explain the interpretation principle: Embodiment 1 produces a certain degree of judgment, and Embodiment 2 produces a more advanced, numerically graded judgment. Embodiment 1: Qualitative (yes/no) judgment Figure 3 is used to detect one person An example of one of the methods of mood. In this example, the measured physiological parameter is the frequency of skin conduction response (freqSCR) within a specific time window (assuming 3 minutes). ^♦ shows mood _ (vertical axis) as The skin A graph of one of the functions of the conduction response frequency (horizontal axis). A skin conduction response (SCR) is defined as one of the stages in conduction. 142249.doc •12- 201021760 Sexual increase, an example of this skin conduction response (SCR) This is shown in curve 201 of Figure 2. A simple illustration is given via a step function (see curve 301) with a double, fixed threshold criterion (see two vertical arrows). If the person's response includes Within these ranges, the person is essentially in that mood; otherwise, 'if the response is far from the required framework, the person will not be able to enter the sexual mood. The result of the interpretation process may be "0 = not in this sexuality. "Mood" or "i = in § hai mood". This criterion in the literature '-[conduction increase> 〇.〇5 pSiemens} is often used to detect SCR. 实施 Example 2: More advanced, digital grading Judgment In this more advanced embodiment, the distance from the actual measured value of the person to the threshold is used to generate a more gradual mood level. For example, the pole for the lowest score corresponds to "not at all. In this mood" and used in the most The pole of the high score corresponds to "completely in the mood-wantness" (e.g., a score on a seven point Likert level). The first embodiment has one of the simpler advantages. The embodiment has an advantage of φ, wherein the user (i.e., the toucher) given to the system plays a more positive role (if he/she wants) in the decision process. The user can be by him. It is up to oneself/herself to give this information about how far his/her partner is from the best mood and therefore how much effort is required to cause his/her companion desire to continue or limit. In this way, this embodiment Allow more freedom to personalize 'where the user is not only replaced by the system, but actively contributes to the final ruling/judgment about his/her partner's sexual mood level, which can ultimately be used to calibrate (optional self-study) The purpose of the system. 142249.doc -13· 201021760 The system proposed by the present invention will enhance mutual understanding, intimacy and motivation for sexual relationships whereby the system can begin to account for one or more of the assessed emotional mood levels. The ultimate goal is to make partners more "synchronized" with each other. In the simplest case, the system will simply detect that one partner is stroking the other and will provide feedback to the partner who made the touch. In a more advanced situation, the system will detect that a partner is stroking the other and based on the status of the two partners (ie, it can be assumed that the partner who is doing the stroke is in the mood but better can also build from the feeling of the partner. This judgment) provides (separate) feedback for both partners. In yet another application, the system will encourage the two partners to estimate each other and record the responses. In this case, the system can establish the current temperament of both. In the following, several specific embodiments of a body contact detector will be discussed with respect to Figures 4 through 7 in the context of a surrounding atmosphere setting system. Fig. 5 schematically shows that the two members of the desired building are close to each other. To explain the reason, the object 70 is depicted as a bed, and in the following explanation it can be assumed that the object 70 is a bed comprising a frame 71, a mattress 72, a bed sheet 73 and a blanket 74, but it should be noted that the object It can be any other type of object, such as a chair, a sofa or a bench or couch, a carpet, a floor, and the like. The two persons A and E are shown lying on the bed 70 in the figure, but it should be noted that depending on the type of object, they can sit or stand. According to the invention, the bed 70 has a body contact detector 3, which includes two conductive electrodes 31, 32 connected to the sensing inputs 23a, 23b of a control device 2''. The controller 2 and the electrodes 31, 142249.doc 14 201021760 32 further comprise a portion of the ambient atmosphere setting system 100 of the at least one increased atmosphere output device of the type described above. One of the controllers 2 control output 24 is coupled to a control input 43 of the device 40, the coupling of which may suitably comprise a wireless line. For the sake of reason, it can be assumed that the device 4 contains ambient light and music. The external electrical circuit between the controller inputs 23a, 23b has a particular property that is dependent on whether the persons A and E are physically touching each other. The controller 20, which may include a suitably programmed microprocessor, is designed and/or programmed to monitor the loop properties at its inputs 23a, 23b and to sense each other in response to the speculative indications A and E. A change, and the increased atmosphere output device 40 is controlled in a predetermined manner: playing soft romantic music and dimming the surrounding light and switching to a warm romantic color. Although the nature of the electrodes 3 1 , 3 2 will be explained in more detail below, it should be noted that the above explanation and the schematic of Figure 4 assume that the positions of A and E on the bed 1 are previously known: only two The sensors 31, 32 are positioned at the φ known positions. However, it should be noted that each sensor may have a size corresponding to one-half of the surface area of the bed. It should be further noted that there may be a plurality of sensors per person dispersed across the surface of the bed, the effective sensors depending on where A and E actually lie. The electrodes 31, 32 can be designed for direct physical contact with human skin. In this case, one suitable method for monitoring the properties of the loops at the controller inputs 23a, 23b is to measure the resistance between the inputs 23a, 23b. Experiments have shown that when there is no physical contact, the resistance between inputs 31 and 32 is actually infinite, and in the case of physical contact, the resistance drops to several thousand ohms 142249.doc -15- 201021760 hm. However, this embodiment contemplates that the users A and E are lying naked on the sensors' and this may be somewhat less spontaneous.
因此’該等電極3 1、32較佳地係經設計用於與人的身體 電容性接觸。在此情況下’用於在控制器輸入23a、231)監 測該等迴路性質之一合適方法為測量輸入23a、23b之間之 該電容量。一實驗已顯示無身體接觸時輸入23a、23b之間 之電容為大約1.4 nF,而在身體接觸情況下此電容增加至 14 nF。當然,該電容之準確值將視該等感測器之實際執 行、衣服之類型及厚度、濕度等等而定,但一般而言在身 體接觸的情況下可預期該電容之一明顯且可度量的增加。 在此方面,應注意的是,已預期該電容在其中一人與一 電極「接觸」而另一人沒有之情況下會增加:上述的實驗 顯示對於此情況,自1.4 nF至1.55 nF之一增加。 對於該等電極31、32有一些可行的實施例。 在一實施例中,每一電極31、32係實施為經選擇具有與 該床的尺寸相符而的長度及寬度之一導電箔。該導電箔可Thus, the electrodes 31, 32 are preferably designed for capacitive contact with a person's body. One suitable method for monitoring the nature of the loops at controller inputs 23a, 231 in this case is to measure the capacitance between inputs 23a, 23b. An experiment has shown that the capacitance between inputs 23a, 23b is about 1.4 nF without body contact, and increases to 14 nF in the case of body contact. Of course, the exact value of the capacitor will depend on the actual implementation of the sensor, the type and thickness of the garment, the humidity, etc., but in general one of the capacitors is expected to be significant and measurable in the case of physical contact. Increase. In this regard, it should be noted that this capacitance has been expected to increase if one of the persons is "in contact" with one electrode and the other is absent: the above experiment shows an increase from one of 1.4 nF to 1.55 nF for this case. There are some possible embodiments for the electrodes 31, 32. In one embodiment, each of the electrodes 31, 32 is implemented as a conductive foil selected to have a length and width that conforms to the size of the bed. The conductive foil can
為一金屬或聚合物箱,且其可配置在床墊72與床單乃之間 或其可配置在床墊72床罩下。 在另一實施例中,每一電極31、32係實施為經選擇具 與該床的尺寸婦*的長度及寬度之—導電織布。該織 可為以導電紗梭織或編織,或至少包括導電紗,或可提 一非導電織布加上導電油墨。同樣地,該 β 墊與床早之間或其可配置在床墊床罩下。然而, —. Μ叩’在此情 下,亦可能將該等感測器整合至床單73及/或床墊U令 142249.doc -16 - 201021760 每-電極可具有一二維形狀,舉例而言係矩形' 然而, ::可能每-電極包括複數個電極部分,該複數個電極部分 彼此互相分離且分別地柄合至分散在床塾72及/或床單73 . <表面區域之-各自的控制器輪心該等部分可作為縱向 . i相互平行配置的—維部分而執行,其可經由將導電紗 配置進該床塾及/或床單之布料而輕鬆地執行。該等部分 亦可作為以-二維陣列配置的點而執行。在所有以上情況 φ 了 ’該控制請可整合所㈣測器部分信號,使得所有感 測器部分之組合表現為一感測器,但為了價測身體接觸之 位置’該控制器亦可分別地處理每—感測器部分信號。 在目前討論的該等實施例中,係假定該床7G具有兩個電 極3!、32,其中每一電極對應於該床塾72之一不同表面區 域’且進-步假定為了容許與該兩個電極Hi接觸,A 及E每-人係躺在此等各自不同表面區域。在兩人都躺在 床之相同半邊或甚至疊在一起時,此等實施例可能並非最 β佳。圖5示意性地繪示’在本發明之一進一步詳盡描述 中’該床70進一步具有感測一人重量並叙合至該控制請 之輸入25a、25b之重量感測器5卜52。若該控制器發現在 其任何一輸入25a、25b處接收的該信號指示兩人之重量, 表示該兩人係躺在相同重量感測器上(床之相同侧),如上 述,該控制器20可安全地假定身體接觸並以該預定方式控 制該增加氣氛裝置40而予以回應。 。該等重量感測器51、52可藉由使用(舉例而言)壓電感測 器、應變感測器等等而執行。類似於前文對於該等電極 142249.doc -17· 201021760 31、32的描述,該等重量感測器51、52可整合在床單中或 在床塾中,或在床單與床墊之間之一額外層中。其等甚至 可安裝在床墊下,或在床墊支架71上。 圖6示意性地繪示此等重量感測器之一特別佈局。該圖 顯示床墊72之一透視圖。床墊72具有四個重量感測器 53a、53b、53c、53d,其中每一者為大體上矩形並貼近彼 此配置。當A及E係躺在彼此旁邊,a將躺在感測器53&或 5 3 b或在此等感測盗之間,因此此等感測器之任一者將偵 測一人重量或兩者將偵測一人之一半重量。同理適用於E 躺在感測器53c或53d或在此等感測器之間。若a&e緊貼在 一起,A及E將躺在兩鄰近的感測器53a、531)或5315、53c或 53c、53d上或他們將躺在兩鄰近的感測器53a、5扑與 53b、53c之間,使得總是兩個鄰近的感測器53a、5扑或 53b、53c或53c、53d將各偵測一人重量或一感測器531?將 偵測一人重量而在相對側之兩鄰近的感測器53a、5孔將各 偵測一人之一半重量。若A&E係躺在彼此身上並在一感 測器上,此一感測器將偵測兩人重量,否則,若他們係躺 在彼此身上並在兩鄰近的感測器5 3 b、5 3 c之間,此等威測 器將各彳貞測一人重量。 圖7示意性地繪示該等重量感測器之一特別執行。該圖 顯示具有為了清楚的緣故之一誇大的厚度之該床單乃之一 透視圖,該床單73具有一頂面73t及一底面73b。在使用 中,該底面73b將被向下導引且將與該床墊72接觸,而該 頂面73t將被向上導引。在該床單73之該頂面乃卜配置電 142249.doc -18- 201021760 極3 1、32,在此情況下,作為相互平行配置的一維電極部 分31s、3 2s之一陣列而執行。在該床單73之該底面73b, 配置電極6 1、62(點線),在此情況下作為相互平行並垂直 於在該床單73之該頂面73t之該等電極部分21s、22s配置的 一維電極部分61s、62s之一陣列而執行。該等電極3丨、32 作用如前文描述。在該床單73之相對侧上之該等電極3 1 s 及61s—起形成一第一壓力感測器51 ;電極3is與61s之間之 s玄電容為用於壓在此等感測器上的該重量之一測量··一更 大的重量趨於將此等電極更近擠壓在一起。相同的施加於 在該床單73之相對側之該等電極32s及62s,其等一起形成 一第二壓力感測器52。在此實施例中,由於互相垂直的一 維電極,該等感測器5 1、52實際上提供一壓敏測量點陣 列’使得對於該控制器20可能的是計算在該床單73上A及 E躺的該位置。該控制器20甚至可辨別A及E是否躺在彼此 旁邊或在彼此身上。 另一選擇為,取代測量分配在該床上之該重量,可能的 是測量分配在該床墊72上或該床單73上之溫度。為此目 的,該床墊72及/或該床單73可具有耦合至該控制器20的 一溫度感測器陣列。由於溫度感測器本身為已知,此處不 需要其等設計及操作之一進一步解釋。舉例而言,該陣列 可為互相垂直的列及行之一矩陣。自該分別的溫度感測器 之該溫度讀取,該控制器20可重建該溫度分布及決定A及 E是否靠近在一起或甚至在彼此身上,且基於此判定該控 制器20亦可開啟該增加氣氛裝置40。 142249.doc -19- 201021760 括而s ’本發明提供用於指示一人的性心情之一心情 偵測系統1。該系統包括: 一身體徵兆偵測裝置10,其產生表示該人之—身體參數 之一回應信號; 身體接觸偵測器30,其產生用於指示該人及一伴侣之 間發生身體接觸之一接觸信號; 一信號處理器20,其具有—記憶體5〇 ;及 輸出裝置40,其由該處理器2〇控制。 處理器可以一記錄模式操作。在一分析模式該處理❿ 器分析自該身體徵兆债測裝置獲得的該等回應信號,判定 °亥人的心情,及相依於該判定結果,操作該輸出裝置。 回應於接收來自該身體接觸债測器並指示該人及該伴侣 發生實體接觸之—接觸信號,該處理器自其記錄模式切換 至其分析模式。 並且’本發明提供當~人相對於另一人處於一浪漫心情 時用於自動產生-浪漫氛圍之一方法。該方法包括偵測該 等人之實體身體接觸之步驟,及回應於此偵測,自動控制© 諸如帛或-音樂播放器或一芳香施配器之至少一增加氣 氛裝置。 周圍氣氛叹疋系統1〇〇包括至少一增加氣氛裝置、 用於偵測兩人A、E之間之實體接觸之债測構件3 i、32及 控制器20 1¾控制器2〇具有麵合至該等價測構件的一輸 入23a、23b及耦合至該增加氣氛裝置之一輸入的一控制輸 出24 °㈣㈣處理自該等偵測構件接收的制器信號, 142249.doc •20· 201021760 且右該等彳g號指示身體接觸,自動控制該等心情設定裝 置,亦即調暗光線及播放浪漫音樂。 因此’本發明解決若一人必須轉移他/她的注意力以開 啟一些裝置而破壞一浪漫時刻之問題:若偵測到該浪漫時 刻’此等裝置會自動開啟。 儘管在圖式及前文描述中已詳細繪示及描述本發明,對 於熟習此項技術者應清楚的是此繪示及描述係被認為繪示 性的或例示性的且非限制性的。本發明係不限於該等揭示 的實施例;相反地,在如後附之申請專利範圍令定義的本 發明之該保護範圍内,一些變化及修改係可能的。 舉例而s ’在上文的該解釋中,6假定每一皮膚接觸事 件構成-浪漫步驟。然而’可能的是兩人在無浪漫意圖時 撫摸’舉例而言因為該接觸係無意的,或因為一伴侣生病 了並由另一伴你幫忙:在此等情況下,將無心領會由該系 統引起之-增加氣氛動作。—解決方法可為該系統具有一 OFF按紐;為了防止該系統必須手動開啟為⑽,該⑽按 紐可關閉該系統-特定持續時間’舉例而㈣小時,在該 特疋持續時間之後’該系統自動回到一現用狀態。另一選 擇為及/或附加地,該系統1〇〇可具有該身體徵兆偵測裝置 10’例如㈣偵測該(等)伴侣之該心情及若該等伴侣之至 少-者未處於該正確心情時用以避免任何增加氣氛動作。 :反地’該系統無法藉由開啟該増加氣氛裝置40來回應可 由該撫摸者解讀為該被撫摸者未處於該正確一作 號。 σ 142249.doc 201021760 此外’該身體徵兆偵測裝置及該身體接觸偵測器可整合 為一裝置,該裝置可能包括一相機及用於偵測身體接觸及 擷取身體回應信號之影像處理軟體。 此外’可能的是該身體徵兆偵測裝置包括可產生含有指 不一人的精神狀態資訊之一信號之一感測器;此感測器之 一實例為一 EEG感測器。 此外’可能的是該等感測器3 1、32係實施為一個或多個 感應線圈陣列。此線圈具有相依於一人之接近之一共振頻 率’且若此人撫摸另一人時此頻率會改變。此實施甚至具 ⑩ 有優勢’該優勢為其可辨別「小」接觸與「大」接觸,亦 即一手指接觸與一隻或兩隻手、手臂、腿等等接觸之間之 差異。 熟習此項技術者在實作本發明、研究圖式、揭示之内 容、與附屬請求項時,可以理解與實現所揭示之該等實施 例的其他變更。在該等請求項中,用字「包括」不排除其 他元件或步驟,且不定冠詞「一(&或&11)」不排除為複數。 一單一處理器或其他元件可實現在該等請求項中列舉的一❿ 些項目之該等功能。在相互不同的附屬請求項中敍述特定 方法之純事實並不表明此等方法之組合無法被有利使用。 該等請求項中任何參考符號不應被解釋為限制本發明之範 圍。 在上文中’已參考方塊圖解釋本發明,該等方塊圖繪示 根據本發明之該裝置之功能方塊。應瞭解此等功能方塊之 者或多者可在硬體中執行,其中此功能方塊之功能係由 142249.doc •22· 201021760 分別的硬體組件執行,但亦可能的是此等功能方塊之一者 或多者係在軟體中執行’使得此功能方塊之功能係由一電 腦程式或一可程式化裝置(諸如一微處理器、微控制器、 數位信號處理器等等)之一個或多個程式線而執行。 【圖式簡單說明】 圖1係示思性地繪示根據本發明之一心情债測系統之一 方塊圖;It is a metal or polymeric box and can be disposed between the mattress 72 and the bed sheet or it can be disposed under the mattress cover of the mattress 72. In another embodiment, each of the electrodes 31, 32 is embodied as a conductive woven fabric selected to have the length and width of the size of the bed. The woven fabric may be woven or woven with a conductive yarn, or at least include a conductive yarn, or a non-conductive woven fabric may be added with a conductive ink. Similarly, the beta pad is placed early with the bed or it can be placed under the mattress cover. However, in this case, it is also possible to integrate the sensors into the sheets 73 and/or the mattress U 142249.doc -16 - 201021760 Each electrode may have a two-dimensional shape, for example Word rectangle ' However, :: may include a plurality of electrode portions per electrode, the plurality of electrode portions being separated from each other and respectively stalked to be dispersed in the mattress 72 and/or the bed sheet 73. <Surface area - respective The portions of the controller wheel center can be implemented as a longitudinal portion that is arranged in parallel with each other, which can be easily performed by arranging the conductive yarn into the fabric of the mattress and/or the bed sheet. These portions can also be executed as points arranged in a two-dimensional array. In all of the above cases φ 'This control can be integrated into the (four) detector part of the signal, so that the combination of all the sensor parts as a sensor, but in order to measure the position of the body contact 'the controller can also separately Process each sensor section signal. In the embodiments discussed so far, it is assumed that the bed 7G has two electrodes 3!, 32, wherein each electrode corresponds to a different surface area of the mattress 72 and the step is assumed to be tolerate the two The electrodes are in contact with Hi, and A and E are each lying on these different surface areas. These embodiments may not be the best when both are lying on the same half of the bed or even stacked together. Figure 5 is a schematic illustration of a further detailed description of one of the inventions. The bed 70 further has a weight sensor 5 52 that senses one person's weight and is incorporated into the control input 25a, 25b. If the controller finds that the signal received at any of its inputs 25a, 25b indicates the weight of the two persons, indicating that the two are lying on the same weight sensor (on the same side of the bed), as described above, the controller 20 can safely assume that the body is in contact and responds to the increased atmosphere device 40 in the predetermined manner. . The weight sensors 51, 52 can be implemented by using, for example, a piezoelectric sensor, a strain sensor, or the like. Similar to the foregoing description of the electrodes 142249.doc -17· 201021760 31, 32, the weight sensors 51, 52 can be integrated in the sheets or in the mattress, or between the sheets and the mattress. In the extra layer. It can even be mounted under a mattress or on a mattress support 71. Figure 6 schematically depicts a particular layout of one of these weight sensors. The figure shows a perspective view of one of the mattresses 72. The mattress 72 has four weight sensors 53a, 53b, 53c, 53d, each of which is generally rectangular and disposed adjacent to each other. When the A and E are lying next to each other, a will lie between the sensor 53 & or 5 3 b or between these sensors, so any of these sensors will detect one person's weight or two. The person will detect one and a half weights of one person. The same applies to the E lying sensor 53c or 53d or between these sensors. If a&e is in close contact, A and E will lie on two adjacent sensors 53a, 531) or 5315, 53c or 53c, 53d or they will lie in two adjacent sensors 53a, 5 Between 53b, 53c, so that always two adjacent sensors 53a, 5 or 53b, 53c or 53c, 53d will each detect a person weight or a sensor 531? will detect one person's weight on the opposite side The two adjacent sensors 53a, 5 will each detect one half of the weight of one person. If A&E lies on each other and on a sensor, the sensor will detect the weight of two people, otherwise, if they are lying on each other and in two adjacent sensors 5 3 b, Between 5 3 c, these testers will each measure one person's weight. Figure 7 schematically illustrates one of the weight sensors being specifically implemented. The figure shows a perspective view of the sheet having an exaggerated thickness for clarity, the sheet 73 having a top surface 73t and a bottom surface 73b. In use, the bottom surface 73b will be directed downwardly and will be in contact with the mattress 72, while the top surface 73t will be directed upward. The top surface of the sheet 73 is provided with an electric pole 142249.doc -18 - 201021760 pole 3 1 , 32. In this case, it is executed as an array of one-dimensional electrode portions 31s and 3 2s arranged in parallel with each other. On the bottom surface 73b of the sheet 73, electrodes 6 1 and 62 (dotted lines) are disposed, which in this case are arranged parallel to each other and perpendicular to the electrode portions 21s and 22s of the top surface 73t of the sheet 73. The array of one of the electrode portions 61s, 62s is performed in an array. The electrodes 3, 32 function as described above. The electrodes 3 1 s and 61s on the opposite sides of the sheet 73 form a first pressure sensor 51; the s-capacitance between the electrodes 3is and 61s is used for pressing on the sensors. One of the weights measured a larger weight tends to squeeze the electrodes closer together. The same electrodes 32s and 62s are applied to the opposite sides of the sheet 73, which together form a second pressure sensor 52. In this embodiment, due to the one-dimensional electrodes that are perpendicular to each other, the sensors 51, 52 actually provide a pressure sensitive measuring point array 'so that it is possible for the controller 20 to calculate on the sheet 73 and E lay this position. The controller 20 can even discern whether A and E are lying next to each other or on each other. Alternatively, instead of measuring the weight dispensed on the bed, it is possible to measure the temperature dispensed on the mattress 72 or on the sheet 73. To this end, the mattress 72 and/or the sheet 73 can have a temperature sensor array coupled to the controller 20. Since the temperature sensor itself is known, one of its design and operation is not required here for further explanation. For example, the array can be a matrix of columns and rows that are perpendicular to each other. From the temperature reading of the respective temperature sensors, the controller 20 can reconstruct the temperature distribution and determine whether A and E are close together or even on each other, and based on this determination, the controller 20 can also turn on the The atmosphere device 40 is added. 142249.doc -19-201021760 The present invention provides a mood detecting system 1 for indicating a person's sexual mood. The system includes: a body sign detecting device 10 that generates a response signal indicative of the person's body parameter; a body contact detector 30 that generates one of the physical contacts between the person and a partner Contact signal; a signal processor 20 having a memory 5; and an output device 40 controlled by the processor 2. The processor can operate in a recording mode. In an analysis mode, the processing device analyzes the response signals obtained from the body sign measuring device, determines the mood of the person, and operates the output device in accordance with the determination result. In response to receiving a contact signal from the body contact detector indicating that the person and the partner have physical contact, the processor switches from its recording mode to its analysis mode. And the present invention provides a method for automatically generating a romantic atmosphere when a person is in a romantic mood with respect to another person. The method includes the steps of detecting physical contact of the physical person of the person, and in response to the detecting, automatically controlling at least one additional atmosphere device such as a cymbal or - music player or a fragrance dispenser. The surrounding atmosphere sigh system 1 includes at least one added atmosphere device, a debt detecting member 3i, 32 for detecting physical contact between the two persons A, E, and a controller 20 13⁄4 controller 2 An input 23a, 23b of the equivalent measuring member and a control output coupled to one of the input of the increased atmosphere device 24 (4) (4) process the controller signal received from the detecting means, 142249.doc • 20· 201021760 and right These 彳g numbers indicate physical contact and automatically control the mood setting devices, ie dimming the light and playing romantic music. Thus, the present invention solves the problem of a romantic moment if one must shift his/her attention to open some devices: if the romantic moment is detected, the devices will automatically turn on. While the invention has been illustrated and described with reference to the drawings The invention is not limited to the disclosed embodiments; rather, some variations and modifications are possible within the scope of the invention as defined by the appended claims. By way of example, in the above explanation, 6 assumes that each skin contact event constitutes a romantic step. However, it is possible that the two are touching when there is no romantic intention. For example, because the contact is unintentional, or because a partner is ill and is assisted by another partner: in such cases, the system will be unintentionally understood. Caused - increased atmospheric action. - The solution may be to have an OFF button for the system; to prevent the system from having to be manually turned on (10), the (10) button may turn off the system - for a specific duration 'for example (4) hours after the duration of the feature' The system automatically returns to the active state. Alternatively, and/or in addition, the system 1 may have the body symptom detecting device 10', for example (4) detecting the mood of the (or) partner and if at least the partners are not in the correct Use it when you are in the mood to avoid any increase in the atmosphere. The reverse system can't respond by turning on the ambience device 40 to be interpreted by the stroker as the stalker is not in the correct one. σ 142249.doc 201021760 In addition, the body symptom detecting device and the body contact detector can be integrated into a device, which may include a camera and image processing software for detecting body contact and capturing body response signals. Further, it is possible that the body symptom detecting means includes a sensor that generates a signal containing mental state information of the finger; an example of the sensor is an EEG sensor. Furthermore, it is possible that the sensors 31, 32 are implemented as one or more arrays of induction coils. This coil has a resonance frequency that depends on one person's proximity and this frequency changes if the person touches another person. This implementation has even an advantage. The advantage is that it distinguishes between "small" contact and "big" contact, that is, the difference between a finger contact and one or two hands, arms, legs, and the like. Other variations of the disclosed embodiments can be understood and effected by those skilled in the <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; In the above claims, the word "comprising" does not exclude other elements or steps, and the indefinite article "一 (& or &11)" is not excluded. A single processor or other component may implement such functions of one of the items listed in the claims. The mere fact that certain measures are recited in mutually different claims are not a Any reference signs in the claims should not be construed as limiting the scope of the invention. In the above, the invention has been explained with reference to the block diagrams which show the functional blocks of the device according to the invention. It should be understood that one or more of these functional blocks can be executed in hardware. The function of this function block is performed by the hardware components of 142249.doc •22· 201021760 respectively, but it is also possible that these functional blocks are One or more of the functions performed in the software 'such that the function of the function block is one or more of a computer program or a programmable device (such as a microprocessor, a microcontroller, a digital signal processor, etc.) Execute with a program line. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing one of the mood debt measurement systems according to the present invention;
圖2係顯不一人對於一撫摸的生理回應之測量之—圖 表; 圖3係示意性地繪示作為皮膚傳導回應之頻率的一函數 之心情偵測之一圖表; 圖4示意性地繪示根據本發明之一周圍氣氛設定系統; 圖5不意性地繪示根據本發明之該周圍氣氛設定系統之 另一實施例; 圖6示意性地繪示具有身體接觸感測器之一實施例之— 床墊; 圖7示意性地繪示具有身體接觸感測器及重量感測器之 一實施例之一床墊。 【主要元件符號說明】 1 心情偵測系統 10 身體徵兆偵測裝置 20 控制器 21 身體信號輸入 23 身體接觸輸入 142249.doc •23- 控制輸出 控制輸入 身體接觸偵測器 身體接觸偵測構件 一維導電電極部分 身體接觸偵測構件 一維導電電極部分 增加氣氛裝置 控制輸入 記憶體 重量感測器 重量感測器 重量感測器 重量感測器 重量感測器 重量感測器 電極 一維電極部分 電極 一維電極部分 床 框架 床墊 床單 -24- 201021760 73t 73b 74 100 床單頂面 床單底面 毯 周圍氣氛設定系統 ❹ 142249.doc -25-Figure 2 is a graph showing the measurement of a physiological response to a stroke; Figure 3 is a graphical representation of a mood detection as a function of the frequency of skin conduction responses; Figure 4 is schematically illustrated An ambient atmosphere setting system according to the present invention; FIG. 5 is a non-intentional illustration of another embodiment of the ambient atmosphere setting system in accordance with the present invention; FIG. 6 is a schematic illustration of an embodiment having a body contact sensor - Mattress; Figure 7 schematically depicts a mattress having one of the embodiments of a body contact sensor and a weight sensor. [Main component symbol description] 1 Mood detection system 10 Body symptom detection device 20 Controller 21 Body signal input 23 Body contact input 142249.doc • 23- Control output control input Body contact detector Body contact detection member 1D Conductive electrode part body contact detecting member one-dimensional conductive electrode part adding atmosphere device control input memory weight sensor weight sensor weight sensor weight sensor weight sensor weight sensor electrode one-dimensional electrode part electrode one Dimensional electrode part bed frame mattress sheet-24- 201021760 73t 73b 74 100 Sheet top sheet under the blanket atmosphere setting system ❹ 142249.doc -25-