1277293. 九、發明說明: 【發明所屬之技術領域】 次、、本發明侧於-種腦波學置,尤其侧於—種可在學習 、/Η縣源發出之聲音訊號產生變化時,控制調整腦波發聲聲 源輪出之腦波發聲音量之互動式腦波學習裝置。 【先前技術】 、w疋從頭部表面上產生之前期性訊號,其根源是透過興奮 神經細胞麟子產生電流。醇之測定是抑—定之裝置,在頭 極:把翌增加到10”納以偵測到腦波,—即 =過測定腦波之變化可以分析大腦之活動狀態。科學家對人之大 处在不同之狀恶下之活動進行了研究,發現人處於興奮、激動、 安靜、睡眠等狀態時所表現出不同之Α腦活動狀態,這些活動狀 態表現為不同之頻率之腦波。外界謂境可靖人腦之活動狀態 產生影響’例如聲波。腦賴之驗就是發出不關率之腦波聲 音來刺激和料人腦進人不同之活動狀t。 是此電子裝置可以在使用腦波功能 之,時使尋裝置之其它缝缝7在驗魏進行巾同時進行 其匕工作鱗習彳了為。例如_個具有腦波功能之電子辭典,可以 一邊使用腦波-邊使簡典進行學習,在學f之同時讓腦波發揮 功效,促進學習效果。 Ί277293-請參考「第I圖」,「第!圖」為習知技術之結構示意圓,目 前’現有之腦波功能在學習方面之應紐限於腦波功能和某種學 習過程同時進行,且兩者相互獨立;缺點在於兩者同時進行時腦 波可成會對m生貞面辟,兩者缺乏互補和互動,缺乏在學 習過程進行到不同階段時腦波魏進行相適應之變化。而兩者獨 立之使用方摘影響了腦波促進學習之魏之發揮,不能達到最 佳之效果。 【發明内容】 域服上^腦波功能和學f過程各自獨立之同時進行所存在 之問題,本發明提出一種互動式腦波學f裝置,以解決上述問題。 …月之種互動式腦波學習裝置,係包括:一學習資料發 聲二源’ Μ波發聲聲源,腦波發聲聲源在學習資料發聲聲源發 出聲音訊號之同3键_皮聲音;以及—聲音減侧模組,其 所逑予白貝料發聲聲源相連,另一端與所述腦波發聲聲源 相織,制以麵測酬述學f賴發聲聲源發出之聲音訊號產 生又化W屢驗崎腦波雜聲雜出之腦波發聲音量。 •本毛月日在提出—種結合腦波功能之學習裝置,以簡單可行 乂與羽、去來構^種學習環境,此環境包含腦波發聲之功能, ί I進订中根據實際需要改變腦波發聲聲源所發出腦波音 里月向波力月匕合理充分發揮作用,以達到良好之學習效果。 1277293· 【實施方式】 以下’將結合®式部份對本發明之優選實財^作詳細說明。 百先,將以_具有腦波魏之電子辭典為例來朗本發明之 具體實現過程。 "" 才電=典是用來學習之電子設備,本身具備—定軟硬體結 構’如「第1圖」所示,習知技術之具有腦波功能之電子辭典係 為^電子辭典同時具備—腦波發聲聲源20,以在使㈣子辭典之 同時可以啟動腦波發聲功能。 「=參考「第2圖」,「第2圖」為本發明之祕結構方塊圖。 由第2圖」可知,本發明之互動式腦波學習裝置係在習知技術 之具有腦波發聲功能之電子辭典硬體結構基礎上增加了聲音訊號 =測換、、且30後貫現。如「第i圖」所示,習知技術之具有腦波功 月b之電子辭典具有學習資料發聲聲源1Q和腦波發聲聲源如,此 兩種聲源發出之聲音,即由學習資料發聲聲源1〇產生之學習資料 聲音訊號與腦波發聲聲源20產生之腦波聲音訊號混合透過揚聲 器60發出;而本發明之互動式腦波學習裝置係在習知技術之具有 腦波發聲魏之f子辭典之細均加了—姆音減翻模組 30,其一ί而與所述學習資料發聲聲源1〇相連,另一端與所述腦波 發聲聲源20相連,係用以在偵測到所述學習資料發聲聲源⑴發 出之耸音訊號產生變化時控制調整所述腦波發聲聲源2〇輸出之 腦波發聲音量。 7 1277293· 以下將結合「第2圖」及「第3圖」對本發明之具體實現過 程進行詳細描述:首先,學習資料發聲聲源1〇啟動工作,產生學 白資料聲音訊號傳送給揚聲器60 ;同時,腦波發聲聲源20工作, 開啟腦波發聲功能產生腦波聲音訊號,播放適合學習之腦波聲音 (例如腦波中能刺激大腦處於興奮狀態之聲音),此時使用者可透過 所述學習資料發聲聲源10進行聽音學習。在聽音過程中會存在學 習育料發聲聲源所發出之聲音時有時無之變化現象,例如英語發 聲,期間存在從沒有聲音到有聲音,再從有聲音到沒有聲音,沒 有~㈢表現在電路上就是聲音之模擬訊號電流較小,而有聲音則 是聲音之模擬訊號電流較大。本發明中位於學習資料發聲聲源播 放發聲之模擬訊號通路上之一聲音訊號偵測模組3〇 (即可為一電 机甙旒偵測裝置),將偵測聲音訊號之變化(即電流變化)並對腦 波發聲聲源20進行控制,當聲音訊號發生較大變化時此聲音訊號 偵測模組30將發出一個控制訊號給所述腦波發聲聲源20,腦波 發聲聲源20收到此控制訊號後減小腦波發聲聲源2〇之腦波聲音 音量。同樣當英語發聲結束時,學習之聲音訊號會減弱甚至消失曰, 所述的聲音訊號偵測模組3〇偵測到學習資料發聲聲源所發出聲 曰之音1發生變化將再發出一個控制訊號,以控制腦波發聲聲源 20增大腦波聲音之音量。 ^ 耳心、 以上過程中當腦波發聲聲源2()接收到因為學習資料發聲辣 源10之聲音大小有變化而由聲音訊號偵測模組3〇發出之控制吒 號後,所述的對腦波發聲聲源20所發出之腦波聲音音量做出調整 1277293- 之動作也可根據用戶預先之軟體程式設定相應地調整腦波發聲聲 源20所發出腦波聲音之音量。 「第3圖」係本發明之第一實施例之系統結構方塊圖,其表 示了本發明之第一實施例之實現過程。如「第3圖」所示,本發 明互動式腦波學習裝置之第—實施例工作過程如下m料發 聲聲源10啟動工作’產生學聲音訊號;同時,腦波發聲聲 源20工作’產生腦波聲音訊號,此兩路輸出都透過同一個揚聲器 60發出。當學習資料發聲聲源1〇發出之聲音訊號發生變化時了 :於所述學習資料發聲聲源1G發出之聲音訊號輸出通路上之聲 :訊號偵顺組如將__學習#料發聲聲源Μ所發出之聲 音訊號之音量大小是否有變化,若偵測到學f聽發聲聲源所 發出之聲音訊號之音量產生變化時,聲音訊號_模組如將一控 制訊號輸㈣腦波發聲聲源2G,腦波發聲聲源2Q接收到此㈣ 訊號後調整财發聲聲源2G之輪出,㈣波輪出音量產生城變 化。比如士’若聲音訊號偵測模组3〇偵測到學習資料發聲聲源 聲音訊號之音量變大,聲音訊號偵測模組將一控制訊 錢出到腦㈣聲聲源2G,腦波發聲聲源2G接收到此 1調整腦波發聲聲源2G之輸出’使腦波輸出音量變小;錢^ 貞綱學f f料發聲聲源1G所發出之聲音訊狀 ===_將—控制訊號輸出到腦波發聲聲 2。之幹$ :耳耳:二接收到此控制訊號後調整腦波發聲聲源 W之輸出,使腦波輸出音量變大。 1277293- 明苓考「第4圖」,此圖為本發明之第二實施例之系統結構方 塊圖,係表不了根據用戶預先之設定相應地調整腦波發聲聲源201277293. IX. Description of the invention: [Technical field to which the invention pertains] The present invention is in the form of an electroencephalogram, especially in the case of control, when the sound signal from the source of the county is changed, An interactive brainwave learning device that adjusts the amount of brain waves emitted by the brainwave sound source. [Prior Art], w疋 produces a pre-existing signal from the surface of the head, the root of which is the generation of electric current through the excitatory nerve cell lining. The determination of alcohol is a definite device. In the head pole: increase the sputum to 10" nanometer to detect the brain wave, that is, the change of the brain wave can be used to analyze the activity state of the brain. The scientist is very big for people. The activities of different situations have been studied, and people are found to have different states of camphor activity when they are excited, excited, quiet, sleep, etc. These activities are manifested in brain waves of different frequencies. The state of the brain of the Jing people has an influence, such as sound waves. The brain's test is to send out the brain wave sound of the unrelated rate to stimulate and feed the human brain into different activities. This electronic device can use the brain wave function. At the same time, the other seams 7 of the seek device are used to carry out the work scales at the same time as the Wei Wei towel. For example, an electronic dictionary with brain wave function can use the brain wave to learn the dictionary. At the same time, let the brain wave function and promote the learning effect. Ί277293-Please refer to "I map", "第!图" is the structure of the conventional technology, and the current 'the brainwave function is in learning. New Zealand is limited to brain wave function and some learning process at the same time, and the two are independent of each other; the disadvantage is that when the two are simultaneously carried out, the brain wave can become a face to face, the lack of complementarity and interaction between the two, lack of learning process At different stages, the brain wave Wei adapts to changes. The use of the two independent users has affected the development of the brain wave to promote learning, and can not achieve the best results. SUMMARY OF THE INVENTION The present invention proposes an interactive brainwave device to solve the above problems. ...month's interactive brainwave learning device, including: a learning data vocal two source 'chopper vocal sound source, brain wave vocal sound source in the learning data vocal sound source to send the sound signal with the same 3 key _ leather sound; - the sound reduction side module, which is connected to the sound source of the white beech material, and the other end is woven with the sound source of the brain wave sound, and the sound signal generated by the sound source of the sound source is generated. The W has repeatedly tested the brain waves and the sound waves of the brain waves. • This month, Maoyue is proposing a learning device that combines brainwave function, which is simple and feasible, and can be used to construct a learning environment. This environment includes the function of brainwave vocalization, ίI changes according to actual needs. The brain wave sounds emitted by the brain wave sound source are reasonably fully functioned in the moon to the moon, so as to achieve a good learning effect. 1277293. [Embodiment] Hereinafter, the preferred embodiment of the present invention will be described in detail in conjunction with the section of the formula. Bai Xian, will take the _ with the brain wave Weizhi electronic dictionary as an example to realize the specific implementation process of the invention. "" 才电=典 is the electronic device used for learning, it has its own - fixed soft and hard structure' as shown in "Figure 1," the electronic dictionary of the brainwave function of the conventional technology is the electronic dictionary. At the same time, there is a brainwave sound source 20, which can activate the brain wave sounding function while making the (4) sub-dictionary. "=Refer to "Figure 2" and "Figure 2" is a block diagram of the secret structure of the present invention. As can be seen from Fig. 2, the interactive brainwave learning device of the present invention adds an audio signal = conversion, and is realized after 30 days, based on the electronic structure of the electronic dictionary having the brain wave sounding function of the prior art. As shown in the "figure i", the electronic dictionary with the brainwave function b of the conventional technology has the learning material sound source 1Q and the brain wave sound source. For example, the sounds generated by the two sources are learned data. The learning data sound signal generated by the sound source 1 is mixed with the brain wave sound signal generated by the brain wave sound source 20 through the speaker 60; and the interactive brain wave learning device of the present invention has the brain wave sound in the prior art. The details of Wei's sub-dimension are added to the module, which is connected to the learning source sound source 1〇, and the other end is connected to the brainwave sound source 20, The amount of brain wave sound outputted by the brain wave sound source 2〇 is controlled to be adjusted when the change of the towering signal emitted by the learning sound source (1) is detected. 7 1277293· The following is a detailed description of the specific implementation process of the present invention in conjunction with "Fig. 2" and "Fig. 3": First, the learning material sound source 1〇 starts work, and the learning white data sound signal is transmitted to the speaker 60; At the same time, the brain wave sound source 20 works, and the brain wave sound function is activated to generate brain wave sound signals, and the brain wave sound suitable for learning is played (for example, the brain wave can stimulate the brain to be excited), at this time, the user can pass through the The learning material vocal sound source 10 performs listening learning. In the process of listening, there will be no change when learning the sound of the sound source, such as English sound, there is no sound until there is sound, then there is sound to no sound, no ~ (three) performance On the circuit, the analog signal current of the sound is small, and the sound is the analog signal current of the sound. In the present invention, an audio signal detecting module 3 (which may be a motor detecting device) on the analog signal path of the sounding source of the learning data sound source detects the change of the sound signal (ie, current) The vocal sound source 20 is controlled, and when the sound signal changes greatly, the sound signal detecting module 30 sends a control signal to the brain wave sound source 20, and the brain wave sound source 20 After receiving this control signal, the volume of the brain wave sound of the brain wave sound source 2 is reduced. Similarly, when the English voice ends, the learning voice signal will weaken or even disappear, and the voice signal detecting module 3 detects that the sound of the sound source of the learning data is changed, and then a control is issued. The signal to control the brain wave sound source 20 increases the volume of the brain wave sound. ^ 耳心, the above process, when the brain wave sound source 2 () receives the control nickname issued by the sound signal detection module 3 due to the change in the sound size of the learning material vocal source 10 The action of adjusting the volume of the brain wave sound emitted by the brain wave sound source 20 can also adjust the volume of the brain wave sound emitted by the brain wave sound source 20 according to the user's previous software program setting. Fig. 3 is a block diagram showing the system configuration of the first embodiment of the present invention, showing the implementation of the first embodiment of the present invention. As shown in "Fig. 3", the working process of the first embodiment of the interactive brainwave learning device of the present invention is as follows: m material sound source 10 starts working to generate a sound signal; meanwhile, the brain wave sound source 20 works 'produces Brainwave sound signal, both outputs are sent through the same speaker 60. When the sound signal from the sound source 1 is changed, the sound signal is output on the sound signal output path of the sound source 1G: the signal detector group will be __ learning # material sound source是否When the volume of the sound signal emitted by the 有 is changed, if the volume of the sound signal emitted by the sound source is detected, the sound signal _ module will input a control signal (four) brain wave sound Source 2G, brain wave sound source 2Q receives this (4) signal to adjust the round of the sound source 2G, (4) the wheel volume produces a city change. For example, if the voice signal detection module 3 detects the volume of the sound source signal of the learning data, the voice signal detection module will send a control signal to the brain (4) sound source 2G, and the brain wave sounds. The sound source 2G receives this 1 to adjust the output of the brain wave sound source 2G' to make the brain wave output volume smaller; the money ^ 贞纲学 ff material sound source 1G sound signal ===_ will - control signal Output to brainwave vocalization 2. The dry $: ear ear: 2 After receiving this control signal, adjust the output of the brain wave sound source W, so that the brain wave output volume becomes larger. 1277293- The following is a block diagram of the system structure of the second embodiment of the present invention, which shows that the brainwave sound source 20 is adjusted according to the user's preset settings.
之月自波奄聲g里之貫現過程,如圖所示,在本實施例中進一步包 括一預設與儲存模組4〇,供使用者選擇設定當學習資料發聲聲源 10所發出之聲音訊號發生變化時,腦波發聲聲源做出甚麼樣 之凋整,變大、不變還是變小,係可根據不同使用者自身之喜好 進行預先設定ϋ可將此設定資訊儲存下來,赠為制者之設定 資訊,當學習資料發聲聲源1G所發出之聲音大小有變化,聲音訊 號偵測模組30偵測到學習資料聲音變化從而發出控制訊號,所述 控制訊號發送至預設與儲存模組4〇,此預設與儲存模組4〇將在 控制訊號的控制下讀取制者之設定魏,並纽職與儲存模In the present embodiment, a preset and storage module 4〇 is further included in the embodiment for the user to select and set the sound source 10 when the learning material is emitted. When the sound signal changes, what kind of fading sound source of the brain wave makes it become larger, unchanged or smaller, which can be preset according to the preferences of different users. This setting information can be saved and given. For the setting information of the system, when the size of the sound emitted by the learning material sound source 1G is changed, the sound signal detecting module 30 detects the change of the learning data sound to issue a control signal, and the control signal is sent to the preset and The storage module 4〇, the preset and storage module 4〇 will read the setting of the maker under the control of the control signal, and the new job and the storage module
組40依照使用者之設定資訊發送至聲音訊號偵測模组%,再由 聲音訊號伽發送處控制峨控繼波發聲聲源2〇之輸 出音里。如當由聲音訊號偵測模組3〇偵測到學習資料發聲聲源 10所發出之聲音訊號變大時,如果使用者預先設定將腦波發聲聲 源20之腦波音量變小 則減小腦波聲音輪出之音量,如果使用者 預先設定為變大腦奸量卿大驗發料源Μ之輪出音量 本實施例提供之方法較$活,同時實現之成本低廉,並且可 以有-些根據使用者需要之變化’例如可以讓使用者預先役定在 學習之聲音變小時腦波發聲聲源2〇如何變化,是變小還變 沒有,甚至變大。 10 1277293, 本發明之互動式腦波封裝置,射進—步包括—腦波發聲 尸I周整板組5〇 ’係位於腦波發聲聲源之腦波聲音輸出之通 路上,聲音訊號偵測模組3〇之一端與所述學習資料發聲聲源ι〇 連另it而與細波备聲聲源調整模組%相連,當聲音訊號摘測 模、㈣偵測到所述學習資料發聲聲源K)發出之聲音訊號產生變 化時’可透過控制腦波發聲聲源調整模組5〇來調整所述腦波發聲 聲源20輸出之腦波發聲音量。 /取後杯考「第5圖」’「第5圖」為本發明之第三實施例之 系統結構方棚,絲示了本發明之包括腦波發聲聲源調整模組 5〇之貫施例之系統結構’當學習資料發聲聲源1G發出之聲音產 生、夂化,料§刪貞測模組㈣靡彳學習資料發聲聲源⑺發出 之聲音產生變化並發出㈣訊號時,聲音訊麵賴組3Q直接將 控制訊號輸細隨發聲聲源調整模組5G,腦波魏聲源調整模 組5〇位於腦絲聲聲源2〇之腦波聲音輪出之通路上,其在接收 到控制訊號後可以直接調整改魏腦波發聲聲源2G輸出至揚聲 器60之腦波發聲音量之大小’這樣即實現了對腦波發聲聲源如 輪出之腦波發聲音量之控制調整。 雖然本發明赠叙難實財柄露如上,鮮並非用以 限定本發明。本躺之技術人員應該意鋼在不脫離本發明所附 之申請專利顧所揭示之本發明之範圍和精神之情況下,所爲之 1277293· 更動與潤飾,均屬本發明之專利保護範圍之内。關於本發明所界 定之保護範圍請麥考所附之申請專利範圍。 【圖式簡單說明】 第1圖為習知技術之系統結構示意圖; 第2圖為本發明之系統結構方塊圖; 第3圖為本發明之第一實施例之系統結構方塊圖; 第4圖為本發明之第二實施例之系統結構方塊圖;以及 第5圖為本發明之第三實施例之系統結構方塊圖。 【主要元件符號說明】 10 學習資料發聲聲源 20 腦波發聲聲源 30 聲音訊號偵測模組The group 40 is sent to the sound signal detecting module % according to the setting information of the user, and then controlled by the sound signal gamma sending station to control the output sound of the secondary sound source 2〇. If the sound signal emitted by the sound source 10 is detected by the sound signal detecting module 3, if the user presets the brain wave volume of the brain wave sound source 20 to be small, the brain wave is reduced. The volume of the sound is rotated, if the user presets to change the volume of the brain, the method of providing the volume of the hair is the same as the method provided by the embodiment. The method provided by the embodiment is cheaper and can be implemented at a lower cost. The change that needs to be made, for example, allows the user to pre-arrange the sound of the learning to become smaller. How does the brainwave sound source 2 change? It is smaller, smaller, and even larger. 10 1277293, the interactive brain wave sealing device of the invention, the injection-step includes: the brain wave vocal corpse I week whole plate group 5 〇 ' is located in the path of the brain wave sound output of the brain wave sound source, the sound signal detection One end of the test module 3〇 is connected with the learning data sound source ι〇, and connected to the fine wave standby sound source adjustment module %, when the sound signal is extracted, and (4) the learning data is detected. When the sound signal emitted by the source K) changes, the amount of brain wave sound outputted by the brain wave sound source 20 can be adjusted by controlling the brain wave sound source adjusting module 5〇. / "Picture 5" and "5th figure" are the system structure square sheds of the third embodiment of the present invention, and the present invention includes the brain wave sound source adjustment module 5 The system structure of the example 'When the learning data is sounded, the sound produced by the sound source 1G is generated, reduced, and the § 贞 贞 模组 module (4) 靡彳 learning data utterance sound source (7) when the sound is generated and the (four) signal is emitted, the sound signal Lai Group 3Q directly controls the signal output with the sound source adjustment module 5G, and the brain wave Wei sound source adjustment module 5〇 is located on the path of the brain wave sound wheel of the brain sound source 2,, which receives the control signal After that, it can directly adjust the size of the sound volume of the brain wave emitted by the 2G output of the Wei brain wave sound source to the speaker 60. This realizes the control adjustment of the sound volume of the brain wave sound source such as the brain wave that is turned out. Although the present invention is not as described above, it is not intended to limit the present invention. The skilled person in the present invention should have the scope and spirit of the invention as disclosed in the application of the present invention, and the 1277729·changes and retouchings are all in the scope of patent protection of the present invention. Inside. With regard to the scope of protection defined by the present invention, please refer to the patent application scope attached to McCaw. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a system structure of a prior art; FIG. 2 is a block diagram of a system structure of the present invention; FIG. 3 is a block diagram of a system structure of a first embodiment of the present invention; A block diagram of a system configuration of a second embodiment of the present invention; and FIG. 5 is a block diagram of a system configuration of a third embodiment of the present invention. [Main component symbol description] 10 Learning data sound source 20 Brain wave sound source 30 Sound signal detection module
40 預設與儲存模組 50 腦波發聲聲源調整模組 60 揚聲器 1240 Preset and Storage Module 50 Brainwave Sound Source Adjustment Module 60 Speakers 12