201208421 六、發明說明: 【發明所屬之技術領域】 本揭露是有關於一種觸發電子裝置執行對應 方法與系統。 【先前技術】 "隨著科技的發展,電子產品已經完全融入一般人的生 活當中,但是在許多時候,一些不經意的疏忽,往往造成 彳夕不必要的能源浪費。例如,當人們在使用電腦工作期 間因其他事務需暫雜開電料,電腦卻仍轉在高功率 的運轉狀態。 根據相關研究機構的實驗資料,可以發 型或是膝上型電腦,顯示器所消耗_占了電腦二201208421 VI. Description of the Invention: [Technical Field of the Invention] The present disclosure relates to a trigger electronic device for executing a corresponding method and system. [Prior Art] " With the development of technology, electronic products have been fully integrated into the lives of ordinary people, but in many cases, some inadvertent negligence often causes unnecessary energy waste. For example, when people use computers to work on other things, they need to turn on the power, and the computer is still running at high power. According to the experimental data of relevant research institutions, it can be used as a hair model or a laptop computer.
。也就是說,在電 數分鐘至數小時) = 待命模式的參考. That is, in minutes to hours) = reference to standby mode
201208421 【發明内容】 本揭露提供一觸發雷qi肚罢# 非 例方==置=咖能之方法實施範例。此範 電子裝置與第二電子裝置之間的多筆 …線電λ唬’根據此些無線電訊號特質計算鱼產生一鉦線 ;以及根據此無線電訊號品質評測值來 觸毛第t子裝置去執行對應功能或觸 置至多個工作模式的其中之一。 疋弟電子裝 子裝置執行對應功能的方法實施範例。此範 1 $ 帛—電子裝置透過—無線電通訊模組與其 他至>、-第二電子裝置通訊或是接收訊息;從第 置中接收-座標資訊或—用讀得—概略位置之資訊;根 f所接收之座標資訊或用以獲得概略位置之資訊來觸發第 -電子裝置錢行對應功能或觸發設定第 個工作減的其巾之—。 no -觸發f子I置執行對應功能的方法實施範例,用於 一電子裝置’其中此電子裝置具有-無線電通訊模組盘二 無線電品質評淑财功縫組。本·好裝置執行對 應功能的方法範例包括:將電子裝置的無線電通訊模組與 無線電裝置連結;從無線縣置巾接收控制指令;以及根 據此控制1令來執行電子裝置的—對應功能。 -觸發,子I置執行對應魏之系統實絲例,其包 括無線電品質評測模組、決賴發動作馳_發功能模 4 201208421 組。無線電品質評測模組用以監測一第一電子裝置與一第 二電子裝置之間的多筆無線電訊號,其中第一電子裝置與 第二電子裝置分別具有無線電通訊模組並且第一電子裳置 與第二電子裝置進行無線電連結。觸發功能模組配置在第 —電子裝置中。無線電品質評測模組根據此些無線電訊號 的訊號特質產生無線電訊號品質評測數值,並且決斷觸發^ 動作模組根據該所產生之線電訊號品質評測數值來將第二 電子扃置的觸發功能模組設定至多個工作模式的其中之— 或是引導第一電子裝置執行對應功能。 一觸發電子裝置執行對應功能的系統實施範例,1 第ί愈電子裝置、第二電子裝置與至少—無線電橋接器。 ^子裝置包括無線電通賴組、決賴發 = 電子裝置透過無線電橋接器與第:電 電通訊模組連結,第二電子裝置根據來自 置的广器的多個無線電訊號來產生對應第二電子舻 座標資訊或-用以獲得概略位置之_ 資㈣無線電通賴域第二1子裝置巾接收座^ 貝況或用以㈣概略位置 ·紅 以獲得概略位置之資訊來將二資訊或用 行對應功能。 成疋引導第一電子裝置執 括第祕實施範例,其包 201208421 子裝置用以與第一電子裝置的無線電通訊模組連結。上述 決斷觸發動作模組經由無線電通訊模組從第二電子裝置中 接收一控制指令,並且根據此控制指令指示觸發功^模組 執行第一電子裝置的一對應功能。 為讓上述特徵及/或優點能更明顯易懂,下文特舉實施 範例’並配合所附圖式作詳細說明如下。 【實施方式】 ^本揭露提供一觸發電子裝置執行特定功能的方法與 系統一些實施範例,其係由電子裝置及/或可攜式無線電裝 置評測彼此之間之無線電訊號的無線電品質或是I線電通 ,對無線電的,,影響程度”,並隸_測結果由此由電子 裝置或可赋無線電裝置來料電子裝置進人適當的工作 模^者觸發電子裝置執行對應魏。本揭露所提出的方 法範例疋透稍析鮮於使帛者身上之錄電裝置所發送 之無線電5fl號的無線電品質來判別使用者是否離開電腦, 並且當判斷使用者_電腦時引導電腦進人低耗電狀態 歹H。’睡眠模式)’達到節能的功效。為能更清楚瞭解, 以下將配合圖式以數個範例來說明。 例的發電子裝置執行對應功能之系統範例實施 勺;^Γ圖1觸發電子裝置執行對應功能之系統1000 二笛:置(亦稱為第一電子裂置)100與無線電裝置(亦 稱為第二電子裴置)200。 6 201208421 電子裝置100能夠運作於多種電源工作模式並且能夠 與無線電裝置200進行通訊或是擷取無線電裝置2〇〇的無 線電訊號。例如,在本範例實施例中,電子裝置1〇〇為電 腦。然而’必須瞭解的是,本揭露不限於此,電子裝置1〇〇 可以是任何可與無線電裝置200連結或是擷取無線電裝置 200的無線電訊號的電子裝置。 無線電裝置200用以向電子裝置1〇〇發送無線電訊 號’或是無線電裝置200具備擷取分析電子裝置1〇〇所發 出無線電訊號之能力,並在完成分析後,無線電裝置2〇〇 可以將結果、相關資訊或是控制命令等傳送至電子裝置 100。例如’在本範例實施例中,無線電裝置2〇〇為行動電 居。然而’必須瞭解的是’本揭露不限於此,無線電裝置 200可以是任何可以與電子裝置100連結的可攜式電子裝 置。例如’在本範例實施例中,電子裝置100與無線電裝 置200可透過藍牙(Bluet00th)或是無線保真(Wirdess Fidelity, Wi-Fi)等通訊協定來連結。 電子裝置100會接收來自於無線電裝置200的無線電 訊號S並且根據此無線電訊號S中的資訊或是本身的特質 (譬如無線電訊號S的接收端訊號強度(Received Signal Strength Indication, RSSI)或是訊號雜訊比(Signal-to-Noise Ratio, SNR))來將其狀態切換至適當的工作模式。 例如,當電子裝置1〇〇判斷來自於無線電裝置200的 無線電訊號的評測結果數值大於第一門檻值時,電子裝置 100會進入正常工作模式。並且,當電子裝置100判斷來 201208421 ^於無線電裝置200的無線電訊號的評測結果數值不大於 第一門檻值時’電子裝置100會進入低耗電模式。常使用 的評測方式可以是多筆接收端訊號強度的均值 、加權均 值’或是連續或是特定分佈的接收的訊號強度都滿足特定 條件(譬如連續三筆合法之接收端訊號強度皆大於某個特 定值)等’藉此來作為評測之方式。其中前述,,合法,,包含符 合該無線電通訊協定之規範之通訊方式,或是人為給定之 條件(譬如限定時間之内所擷取到之無線電訊號為合法,超 過該限定時間則為非法)。 圖2是根據圖1範例實施例所繪示的電子裝置1〇〇的 概要方塊圖。 請參照圖2’電子裝置100包括無線電通訊模組1〇2、 無線電品質評測模組104、具有工作模式切換模組1〇如的 決斷觸發動作模組106以及觸發功能模組1〇8。 無線電通訊模組102用以接收無線電裝置2〇〇所發送 的無線電訊號,且無線電通訊模組1〇2亦可以具備完整之 與無線電裝置200之無線電通訊模組通訊之能力。在範例 實施例中,無線電通訊模組1〇2可以是内建於電子裝置ι〇〇 中或者透過有線連接埠(例如,通用序列匯排流师爾^ Serial Bus,USB))或是無線連接埠(例如,紅外線、 GPRS/3G/3.5G/3.75G、Wi-Fi或是藍牙等方式)連接至電子 裝置100。 在本範例實施例中,無線電通訊模組102是符合藍牙 或是Wi-Fi規範的模組。,然而,本揭露不限於此,無線電 8 201208421 通訊模組102是可以是符合無線射頻辨識(Radi〇 Frequency Identification,RFID)技術規範或其他無線電協議的模組。 無線電品質評測模組1〇4用以監測電子裝置1〇〇與無 線電裝置200之間的多筆無線電訊號並且根據此些無線電 訊號的訊號特質產生無線電訊號品質評測數值。決斷觸發 動作模組106會根據無線電品質評測模組1〇4所產生的無 線電訊號品質評測數值來將驅使電子裝置丨⑻的觸發功能 模組108將引導電子裝置⑽設定至多個工作模式的其中 之-或是引導電子農置100執行對應功能。例如,在本範 例實施例巾,決_發動作模組⑽駐賴式切換模也 购是根據先進組態與電源介面(Advanced c〇nfig咖咖 and P〇wer Interface,ACP職範來管理電子裝置则的 供廄。 $據顧的規範,電子裝置1〇〇的工作模式可區分 ,正常工作杈式G0、多種睡眠模式⑴、軟關機模 G2(S〇ft Off)與關機模式⑺⑽灿恤⑽_。 、 W在ΓηΓ成功作模式(以下稱為训_中’決斷觸發動 杈、、且紅作似城黯會 刚來控制電子農置觸的所有元件都正常的運作果、、且 在睡眠模式中,決斷觸發動作模組1〇6的工作 會Τ觸發功能模組⑽ 的規範中,睡眠模式更細分㈣ 模式、S2模式、S3模式與S4模式。 在軟關機模式(以下稱為S5模式)中,決斷觸發動作模 201208421 組106的工作模式切換模組1〇6a會驅使觸發功能模組i〇8 來維持最低的電量,以使得電子裝置1〇〇可透過鍵盤、數 據機或通用序列匯排流(Universal Serial Bus,USB)裝置喚 醒。 在關機模式(以下稱為S6模式)中,決斷觸發動作模組 106的工作模式切換模組106a驅使觸發功能模組108來完 全停止電源的供應。 決斷觸發動作模組106的工作模式切換模組1〇6a用 以識別從無線電裝置2〇〇所接收之無線電訊號的評測結果 數值並且根據無線電訊號的評測結果數值來將觸發功能模 組104 s史定至對應的工作模式。在本揭露中,無線電品質 评測模組104、具有工作模式切換模組1〇6a的決斷觸發動 作模組106以及觸發功能模組108可以是以硬體電路或電 腦程式來實作。 在觸發電子裝置執行對應功能之系統1〇〇〇初始# 時,無線電裝置200會與電子裝置1〇〇連結。之後,無轉 電品質評測模組104會偵測所連結之無線電裝置2〇〇所潑 送的無線電訊號。在此,所謂連結是指經過認知、至少^ 方對另一方認證或是雙方認證。例如,倘若無線電裝置2以 與電子裝置1GG之狀透職料定來觀時,乂線電装 置細與電子裝置⑽的連結會遵守藍牙協定來進行並』 無線電品質評測模組104會根據對應無線電骏置2⑻的髮 牙識別碼來識別來自於無線電裝置的無^電訊號。= 例如,倘若無線電裝置200與電子裝置1〇〇之間是u透这 10 201208421 H協定來通訊時’無線電裝置200與電子裝置100可 二、另1 媒體存取控制(Media Access Control, MAC)位 止‘、、、線電農置200與電子裝置1〇〇内之暫 電品負評測模組1G4會根據對應無線電裝置的mac ㈣來識別來自於無線電裝置的無線電訊號。也就是 次…線電負评測模組104僅會偵測連結過之無線電裝 置200的無線電訊號,因此,致動決斷觸發動作模組應 來進行工作模式切換的使用者身份是會被確認的。 ^無線電品質評測模組1 〇 4會從所偵測的無線電訊號中 獲取無線電訊號品質,並且決斷觸發動作模組1〇6根據該 無線電sfl號品質或是計算之評測結果,來驅使觸發功能模 組108將電子裝置1〇〇設定至對應的工作模式。 例如,無線電品質評測模組1〇4會根據下述公式⑴ 或公式(2)來計算無線電訊號品質的評測數值,其中公式(^) 是用於計算直接連結(link)之無線電訊號強度,而公式(2) 是用於計算多重連結(multiple link)或是路徑(r〇ute)之無線 電訊號強度: 其中3\表示在第t秒内接收端所收到的訊號強度參數 (signal strength parameter,SNR)的平均,p 表示每秒所獲取 之SNR的數量,S\(j)表示在第t秒中第j個SNR的正規化 SNR值(即,S^Cj)介於0與1之間)’其次,SNR值亦可以 用 RSSI(received signal strength indicator)值來替代使用。 11 201208421 ACLr=vL/f(0 (2) 其中ACLr表示累積連結品質值,i表示在此路徑内的 連結,並且Pr表示包含此路徑的所有連結的連結集合。 在本範例實施例中,無線電品質評測模組104會依據 無線電訊號強度(即,依據上述公式(1)或(2)所計算的無線 電訊號強度)來產生無線電訊號品質評測數值。例如,無線 電品質評測模組104會依據無線電訊號強度將無線電訊號 品質評測數值設定為對應的數值。此外,電子裝置10〇的 每一工作模式會被設定至對應一個無線電訊號品質評測數 值範圍。決斷觸發動作模組106的工作模式切換模組i〇6a 會根據無線電訊號品質評測數值來驅使觸發功能模組1 〇8 將電子裝置100設定至數個工作模式之一適當的工作模 式。 例如’決斷觸發動作模組106的工作模式切換模組 106a會將無線電訊號的評測結果分成幾個區域:強區 (strong RSSI region)、遲滯區(hysteresis region)、弱區(weak RSSI region)以及斷線區(disconnection region) 〇 在無線電裝置200达離電子裝置i 〇〇的例子中,當無 線電裝置200位在訊號強區的時候,電子裝置1〇〇處於一 般待機模式(standby mode),此時可以允許視窗的Acpi照 吊運作。當無線電裝置200開始遠離至遲滯區,此時電腦 仍然處於一般待機模式,需要等到無線電裝置2〇〇遠離超 過遲滯區的範圍,如無線電裝置2〇〇落入訊號弱區時,此 時電子裝置100才由原本的待機模式調整至另一人為設定 12 201208421 的模式(如:關螢幕,降低耗能;啟動視窗作業系統内建之 營幕上鎖或是其他軟體或是硬體提供之上所功能;前述項 次可以是需要調整,或是個別使用)。再其次,當無線電裝 置200再遠離電子裝置100而落至斷線區,此時電腦便會 進入睡眠模式(或是其他人為預設定之模式,或是低耗能模 式)。 ' 在無線電裝置200靠近電子裝置100的例子中,當無 線電裝置200位於斷線區時,電子裝置1〇〇處於睡眠模式 (或是其他人為預設定之模式,或是低耗能模式)。當無線 電裝置200落入訊號弱區,此時電子裝置1〇〇會被觸發至 特定之人為預設定之模式(如甦醒、螢幕維持上鎖、螢幕關 閉等等,前述各項可以分開或是搭配使用,或是另外設定 其他的狀態,本揭露不限定)。當無線電裝置2〇〇再稍微靠 近至遲滯區時,此時f子裝f⑽仍然轉手機在訊號弱 區時候的狀態,要等到手機進入訊號強區的時候,電腦才 會解鎖或是開啟至一般待機模式。 、圖3A是根據圖卜2範例實施例所繪示之切換工作模 式的範例不意圖,其繪示當電子裝置1〇〇遠離電子裝置 ^决斷觸發動作模組1G6的玉作模式切換模組丨临如何根 蜂電裝置100與無線電裝置200之間的無線電訊號品質 5平測數值來切換工作模式。 ' 門參照圖认,當電子裝置100與無線電裝置2〇〇之 曰的…線電訊號品質評測數值大於或等於第 日守,決斷觸發動作模組概的工作模式切換模、组购會驅 13 201208421 使觸發功能模組108將電子裝置100設定至SO模式。 當電子裝置100與無線電裝置200之間的無線電訊號 品質評測數值小於第一門檻值T1且不小於第二門檻值T2 時,決斷觸發動作模組106的工作模式切換模組106a會驅 使觸發功能模組108將電子裝置100設定至S1模式。 當電子裝置100與無線電裝置200之間的無線電訊號 品質評測數值小於第二門檻值T2且不小於第三門檻值T3 時,決斷觸發動作模組106的工作模式切換模組106a會驅 使觸發功能模組108將電子裝置100設定至S2模式。 當電子裝置100與無線電裝置200之間的無線電訊號 品質評測數值小於第三門檻值T3且不小於第四門檻值T4 時,決斷觸發動作模組106的工作模式切換模組106a會認 定無線電裝置200與電子裝置100的相對位移是位於第四 位移範圍内並且驅使觸發功能模組108將電子裝置100設 定至S3模式。 當電子裝置100與無線電裝置200之間的無線電訊號 品質評測數值小於第四門檻值T4且不小於第五門檻值T5 時,決斷觸發動作模組106的工作模式切換模組106a會驅 使觸發功能模組108將電子裝置100設定至S4模式。 當電子裝置100與無線電裝置200之間的無線電訊號 品質評測數值小於第五門檻值T5且不小於第六門檻值T6 時,決斷觸發動作模組106的工作模式切換模組106a會驅 使觸發功能模組108將電子裝置100設定至S5模式。 基於上述,當持有無線電裝置200的使用者逐漸離開 14 201208421 電子裝置100時,決斷觸發動作模組1〇6的工作模式切換 杈組106a會隨著電子裝置100與無線電裝置2〇〇之間的無 線電訊號品質評測數值依序地引導電子裝置1〇〇至適當的 低耗電模式,而相對節能。 類似地,當持有無線電裝置200的使用者逐漸靠近電 子裝置100 _,決斷觸發動作模、級106的工作模式切換模 組驗亦可將電子襄置1〇〇倾。_ 3B是根據圖ι、2 ,例實施例崎示的浦卫作模式的_示意圖,其綠示 ΓηΓώΤ裝置+1(Κ) #近電子農置丨⑼時決斷觸發動作模組 綠+、工作模式切換模組祕如何根據電子裝置⑽盘| =裝置之間的無線電訊號品詩測數值來喚醒電;: "θ ° 儘管在圖3Α中 工作模式被區分為S0模式、S1模 =、模式、S3模式、S4模式與叫 二數並非限定於此。另-範例上 工作模式的個數可以是任意數目。 凊參照圖3B,假設在雷;壯班, 遠離而被切餘Ρ5模式下並/ 。。的例子中,決斷觸發動作二^ 二1別電子裝置刚與無線電裝置· ίί之r :電訊號品質評測數值大於或等;:: 歸了1時,決斷觸發動作模組咖的工作模式切ΐ模 201208421 組106a會驅使觸發功能模組i〇8將電子裝置1〇〇 μ定至 Ρ0模式,以喚醒電子裝置1〇〇。 又 類似地,儘管在圖3Β中,工作模式被區分為ρ〇模式 與Ρ5模式等2個模式。然而,工作模式的個數並非限定 於此。另一範例實施例中,工作模式的個數可以是任意數 目。 圖4疋根據圖1、2範例實施例所纟會示的觸發電子裝 置執行對應功能之方法的流程圖。 請參照圖4’在步驟S401中,將電子裝置100的無線 電通訊模組102與無線電裝置200連結。 在步驟S403中,監測電子裝置1〇〇與無線電裝置2〇〇 之間的無線電訊號。並且在步驟S405中,依據電子裝置 100與無線電裝置200之間的無線電訊號特質來產生電子 裝置100與無線電裝置200之間的無線電訊號品質評測數 值。 在步驟S407中,判斷電子裝置100與無線電裝置200 之間的無線電訊號品質評測數值是否已改變至另一範圍。 倘若電子裝置100與無線電裝置200之間的無線電訊 號品質評測數值已改變至另一範圍時,在步驟S409中, 將電子裝置100的觸發功能模組1〇8設定至對應的工作模 式。設定對應之工作模式的方式已配合圖3Α與3Β詳細描 述如上,在此不再重複說明。 倘若判斷電子裝置1〇〇與無線電裝置200之間的無線 電訊號品質評測數值沒有改變至另一範圍,或步驟S409 16 201208421 執行之後,流程會移至步驟S403繼續執行,以持續地债 測監測電子裝置1〇〇與無線電裝置200之間的無線電訊號。 在步驟S405中,無線電品質評測模組104是根據無 線電訊號強度來產生無線電訊號品質評測數值。然而,本 揭露不限於此,無線電品質評測模組104亦可使用從無線 電訊號中所擷取的其他資訊來產生電子裝置100與無線電 裝置200之間的無線電訊號品質評測數值。 例如,在另一範例實施例中,無線電品質評測模組1 〇4 會根據所持續監測無線電訊號強度的變化趨勢。例如,無 線電品質評測模組104會以平均或加權平均方式來計算在 一段時間内無線電訊號強度的變化趨勢。並且,無線電品 質評測模組104會根據所計算的變化趨勢來產生電子裝置 1〇〇與無線電裝置200之間的無線電訊號品質評測數值。 例如,當訊號強度之變化趨勢呈現逐漸變弱時,表示無線 電裝置200逐漸離開電子裝置100。在某些情況或是使用 特疋的無線笔通戒協定’為了使接收端的所收到的無線電 訊號能夠達到一定的品質,發射端可以會提高發射功率, 此提南發射功率倍率的參數’亦能做為提供評測或是計算 無線電訊號品質的參數之一。基此,決斷觸發動作模組1〇6 的工作模式切換模組1 〇 6 a會設定觸發功能模組10 8至低耗 電模式。而當強度之變化趨勢呈現逐漸變強時,表示無線 電袭置200逐漸靠近電子裝置100。基此,決斷觸發動作 核組106的工作模式切換模組106a可在電子裝置1〇〇與無 線電裝置200之間的無線電訊號品質評測數值大於第一門 17 201208421 檻值時將觸發功能模組108至正常工作模式。 此外,例如,在另一範例實施例中,決斷觸發動作模 組1 〇 6的工作模式切換模組丨〇 6 a亦可根據無線電訊號信標 (beacon)時間密度來設定工作模式。例如,無線電品質評 測模組104會判斷每秒中所接收到之信標的數量來產生無 線電裝置200與電子裝置丨⑻之間的無線電訊號品質評測 數值。舉例來說,無線電訊號在傳遞時會有衰弱的現象, 尤其當接收端位於發射端訊號涵蓋範圍的邊緣時 ,此時容 易發生訊號時有時無’或是忽強忽弱導致某些訊號因無法 正確接收而遺漏的情況。此時,接收端所收到的發射端之 無線電訊號信標數目(或是單位時間的信標數目)可能會比 發射端送出的數目要少。因此,當無線電裝置2〇〇離電子 裝置100越近時,由於漏掉的信標變少導致所接受到之信 標^時間密度會越高。而當無線電裝置2〇〇離電子裝置1〇〇 越遠時,所接受到之信標的時間密度會越低。基此,可類 似圖3所示’依據信標時間密度來產生無線電裝置200與 電子裝置100之間的無線電訊號品質評測數值,由此驅使 觸發功能模組108將電子裝置1〇〇設定至數個工作模式之 一適當的工作模式。 ^再者,例如,在另一範例實施例中,無線電品質評測 =組<104會根據所持續接收到之無線電訊號信標時間密度 "貝机來计算在一段時間内信標時間密度的變化趨勢。例 如^無線電品質評測模組104會以平均或加權平均方式來 计异在一段時間内信標之時間密度的變化趨勢。並且,工 18 201208421 作模式切換模組106會根據所計算的變化趨勢來將無線電 品質評測及觸發功能模組104設定至對應的工作模式。例 如,當信標之時間密度的變化趨勢呈現逐漸變低時,表示 無線電裝置逐漸離開電子裝置100。基此,決斷觸發動作 模組106的工作模式切換模組l〇6a會驅使觸發功能模組 108將電子裝置1〇〇设定至低耗電模式。而當信標之時間 农度的變化趨勢呈現逐漸變高時,表示無線電農置逐漸靠 近電子裝置100。基此,決斷觸發動作模組1〇6的工作模 式切換模組106a會驅使觸發功能模組1〇8將電子裂置1〇〇 設定至正常工作模式。 在另一範例實施例中,在無線電裝置2〇〇與電子裝置 100的無線電通訊模組1〇2連結時,決斷觸發動作模組⑽ 的工作模式切換模組106a更會處理並記錄電子裝置100 裝置200之間的最佳無線電訊號品質。例如,將 縣—無線絲置錄電奸置贼(例如,坐在電 測得到的無線電訊號品質定義為近端高品 境,接評測結果。而此評測結果對應各使用環 無線電裝置2。。之間的最佳無線電訊號 19 201208421 或是降低特殊狀況的無線電訊號品質評測結果可能對真實 客觀狀況的錯誤評測所產生之影響。 在本範例實施例中,無線電品質評測模組104是根據 一固疋監測頻率來重複地偵測監測電子裝置1 〇〇與無線電 裝置200 t間的無線電訊號以產生無線電訊號品質評測數 值。然而,本揭露不限於此,在另一範例實施例中,無線 電品質評測模組10 4亦可根據一變動監測頻率來監測電子 裝置100與無線電裝置200之間的無線電訊號 。例如,無 線電品質評測模組104可根據無線電裝置2〇〇的加速度感 ,器(G-Sensor)、陀螺儀(Gyr〇)或電子羅盤(E_c〇mpass)的一 量測結果(譬如變動幅度)來調整此監測頻率,或者根據 電子裝置100之鍵盤或滑鼠的一訊號來調整此監測頻率。 在本範例實施例中,監測電子裝置i 〇 〇與無線電裝置 200之間的無線電訊號強度並且依據電子裝置1〇〇與無線 ;電裝置2G0之間的無線電訊號強度來產生無線電訊號品質 °平測數值的運作是由電子裝置励的無線電品質評測模組 。來執行並且由電子裝置IQ。的決斷觸發動作模組1〇6 來驅使觸發功能模㉟⑽將電子裝i 1〇〇❺定至對應的工 作模式或執行對應的功能。 :彳而本揭露不限於此,在另一範例實施例中,監測 置i〇0與無線電裝置200之間的無線電訊號強度並 1電子裝置100與無線電裝置200之間的無線電訊號 # 產生無線電訊號品質評測數值的運作亦可由無線電 乂 200來執行。也就是說,無線電品質評測模組1〇4亦 20 201208421 可配置在無線電裝置2⑻中,叙由無線電裝置來產 生無線電訊號品質評測數值。 此外’在另一範例實施例中,無線電品質評測模組1〇4 與決斷觸發動作模組1Q6亦可皆配置於無線電裝置2⑽ 中,並且由無線電裝置2〇〇產生無線電訊號品質評測數值 並且根據所產生的無線電訊號品質評測數值來驅使觸發功 忐杈組108將電子裝置100設定至對應的工作模式或執 對應的功能。 在圖1、2範例實施例中,電子裝置是直接接收來自 於無線電裝置的無線電訊號並且根據所接收之無線電訊號 中的貝汛(例如,無線電訊號強度、無線電訊號信標時間密 度或I工制心令)來產生無線電机號品質評測數值。在另一範 ,實施例中,電子裝置亦可透過無線橋接器來接收無線電 f置的無線電訊號。也就是說,無線電裝置的無線電訊號 是透過無線橋接器傳送給電子裝置。 ° ~ 圖5是根據另一範例實施例所繪示之觸發電子装置執 行對應功能之系統的運作示意圖。 請參照圖5 ’觸發電子裝置執行對應功能之系統5〇〇〇 包括電子裝置100、無線電裝置200與無線電橋接器53〇2。 在本範例實施例中,無線電橋接器53〇2用以接收無 線電裴置200所發送的無線電訊號並且將無線電裝置2()〇 所發送的無線電訊號轉送給電子裝置1〇〇。 相同於圖1範例實施例,電子裝置100會根據無線電 裝置200的無線電訊號中的資訊來產生無線電訊號^質二 21 201208421 測數值,並且根據無線電訊號品質評測數值來進入對應的 工作模式。也就是說,無線電品質評測模組104會獲取電 子裝置100與無線電裝置200之間的無線電訊號強度,依 據此無線電訊號強度產生無線電訊號品質評測數值,並且 決斷觸發動作模組10 6根據所產生的無線電訊號品質評測 數值來驅使觸發功能模組108將電子裝置100設定至對應 的工作模組(如圖3所示)。 在本範例實施例中,電子裝置100與無線電橋接器 5302之間可透過無線通道或有線通道來連接。也就是說, 當接收到無線電裝置200的無線電訊號時,無線電橋接器 5302可透過無線通道或有線通道來將此無線電訊號的相 關資訊傳送給電子裝置1〇〇。 在另一範例實施例中,電子裝置是根據從無線電裝置 所接收的座標資訊來進入適當的工作模式。 圖6是根據另一範例實施例所繪示之觸發電子裝置執 行對應功能的系統的運作示意圖。 請參照圖6,觸發電子裝置執行對應功能的系統6〇〇〇 包括電子裝置6100、無線電裝置6200、無線電橋接器 6302、無線電橋接器6304與無線電橋接器6306。 電子裝置6100具有無線電通訊模組1〇2、無線電品質 評測模組10 4、決斷觸發動作模組61 〇 6與觸發功能模組i 〇 8 (如圖7所示)。 無線電通訊模組102用以與無線電裝置62〇〇進行連 Ί,並且從無線電裝置6200中接收無線電訊號。 22 201208421 決斷觸發動作模組嶋用以根據從無線電裝置62〇〇 所接收到的座標資訊來識別無線電裝置6·與電子裝 f 6100之間的相對位移,並且判斷此相對位移對應的位^ 耗圍’由此雜觸發魏模組⑽狀至對應的1作模式。 。無線電裝置6200用以向電子裝置61〇〇發送無線 ,或是無,電裝置62〇〇可以透過無線電橋接器63〇2、無 橋接器6304與無線電橋接器6306向電子裝置6100 或是取得訊息。例如,在本_實施财,無線電裝 6200為行動電話。然而,必須瞭解的是,本揭露不限於 無線電裝置6200可以是任何可與電子裝置61〇 的可攜式電子裝置。 無線電橋接器63G2、無線電橋接器6綱與無線電橋 6306能夠與無線電裝置6通訊並且用以分別地傳 2自的純給鱗電裝置6細。或者,無線钱置 可错由自身的對無線電訊號的解碼、量測或是查表等,進 二取^無線電橋接器6302、無線電橋接器6與無線電 巧接器6306的概略位置或是空間中的座落範圍。 圖8是根據圖6實施例所綠示的無線電裝置的概要方 *鬼圖。 r請爹照® 8,無線電裝置62〇〇具有微處理器62〇2、 ^記憶14隨、錢料魅6施魅線電通訊模組 1處理S 62G2用以控制無線電裝置62GG的運作, =記憶體綱㈣暫存轉,鋪計算池讓用以 。异無線電裝置6200的座標,並且無線電通訊模組62〇8 23 201208421 用以接收與發送無線電訊號。 在本範例實施例中,無線電裝置62〇〇的座標計算模 組6206會根據從無線電橋接器63〇2、無線電橋接器幻⑽ ,無,,橋接器63〇6中所接收到的座標資訊使用―室内 定位演算法來計算本身的座標。舉例來說,無線電橋接器 63〇2二無線電橋接器6304與無線電橋接器6306可被設置 =固定座標。因此’座標計算模組㈣6可依據無線電通訊 ,組6208與無線電橋接器㈣之間的無線電訊號來推估 八與無線電橋接器63〇2之間的距離。類似地,座標計算模 組6206可祕其與躲電橋接^ _和無線電橋接器 6306之間的距離。基此’座標計算模組62〇6可根據所推 f的此些,離和此些無線橋接器的座標來計算其座標。必 f瞭解的是’在另―範例實施例巾,無線電裝置6200亦可 =由自身的對無線電訊號的解碼、量測或是查表等,來取 橋接H 6搬、無線電橋接器隨與無線電橋接 〇〇 一>的位置或是空間中的座落範圍,而獲得一概略位置 無線電襄置6200會將所計算的座標透過無線電訊贺 ,迗給電子裝置_。基此,I作模式切換模組61〇6 ^ 根據所收到的座標來設定對應的工作模式。 在本揭露中,座標計算模組6206可以是以硬體電路 或電腦程式來實現。 圖9疋根據圖6、7、8範例實施 裝置執行對應舰之方法的流程圖。 ^子 24 201208421 請參照圖9,在步驟_中,將電子裝置6i〇〇的無 線電通訊模組102與無線電裝置62〇〇連結。 接著,在步驟S903中,從無線電裝置62〇〇中接收益 線電訊號。並且,在步驟S9〇5卜從無線電訊號中獲取 座標資訊。 然後,在步驟S907中,根據從無線電訊號中所獲取 的座標資訊判斷無線電裝置62〇〇的相對位移是否已改變 至另一位移範圍。 倘若無線電裝置6200的相對位移已改變至另一位移 範圍時,在步驟S909中,將電子裝置61〇〇的觸發功能模 組108設定至對應的工作模式。 倘右無線電裝置6200的相對位移並無改變至另一位 移範圍,或執行步驟§909之後,流程會移至步驟§903繼 續執行,以持續地接收電子裝置62〇〇所發送的無線電訊 號。 在圖1範例實施例中,電子裝置是直接接收來自於無 線包裝置的無線電訊號並且根據所接收之無線電訊號中的 資訊(例如,無線電訊號強度、無線電訊號信標時間密度或 控制指令)進入對應的工作模式。然而,決斷觸發動作模組 ,可根據無線電裝置所傳送的控制指令將觸發功能模組設 定至對應的工作模式或者觸發電子裝置執行對應的功能。 圖丨〇是根據再一範例實施例所繪示之觸發電子裝置 執行對應功能的系統,並且圖11是根據圖10範例實施例 所緣示之電子裝置的概要方塊圖。 25 201208421 請參照圖1 ο ’觸發電子裝置執行對應功能的系統9 〇 〇 〇 包括電子裝置9100與無線電裝置92〇〇。電子裝置9100與 無線電裝置9200為彼此可互相通訊的裝置。例如,在本範 例實施例中,電子裝置9100為電腦,並且無線電裝置92〇〇 為行動電活。然而,必須瞭解的是,本揭露不限於此。 電子裝置9100包括無線電通訊模組1〇2、決斷觸發動 作模組9106與觸發功能模組1〇8。 決斷觸發動作模組910 6耦接無線電通訊模組丨〇 2,並 且用以根據來自於無線電裝置9200的控制指令對應的控 制電子裝置9100的觸發功能模組1〇8。 使用者可直接地使用無線電裝置9200傳送控制指令 給電子裳置9100。並且,電子裝f 91〇〇的無線電通訊模 組102接收到來自於無線電裝置9200的控制指令時,決斷 觸發動作模組9106會識別此控制指令並且根據此控制指 令驅使觸發功能模組1〇8來設定對應的工作模式或者開啟 對應的軟體。 例如,此控制指令可以是相同於藉由滑鼠、鍵盤、無 線或有線網路來主機裝置9100的喚醒控制指令。例如,當 電子裝置9100處於睡眠模式並且無線電通訊模組1〇2接收 到來自於無線電裝置9200的喚醒控制指令時,決斷觸發動 作模組9106會驅使觸發功能模組1〇8來設定至正常工作模 式。 、 例如,此控制指令亦可以是指示關閉電腦螢幕的控制 指令。例如,當使用者離開電子裝置91〇〇時,使用者可操 26 201208421 作無線電裝置9200來發送指示關閉電腦螢幕的控制指令 給電子裝置9100。並且,當無線電通訊模組1〇2接收到^ 自於無線電裝置9200之指示關閉電腦螢幕的控制指令 時’決斷觸發動作模組9106會指示觸發功能模組1〇8 ^ ^ 子裳置9100的螢幕(未繪示)的電源關閉。又或者,決斷觸 %動作模組9106會根據所接收之控制指令調整螢幕的一 亮度或是將電子裝置9100設定成一耗能模式。 在本範例實施例中,無線電通訊模組1〇2與決斷觸發 動作模組9106可在電子裝置9100進入軟關機模式時仍^ 接收與識別來自於無線電裝置9200的控制指令。 圖12疋根據圖1〇、η範例實施例所'纟會示之觸發電子 裝置執行對應功能的方法的流程圖。 請參照圖12,在步驟S1201中,從無線電裝置中接收 控制指令。然後,在步驟S12〇3中,識別所接收之控制指 令。201208421 [Summary of the Invention] The disclosure provides a method for implementing the method of triggering Lei Qi. #非例方==置=咖能. The plurality of lines between the electronic device and the second electronic device are calculated according to the radio signal characteristics to generate a line of the fish; and the t-sub device is executed according to the radio signal quality evaluation value. Corresponding function or touch to one of several working modes. An example of how to implement the corresponding function of the electronic device. The Fan 1 $ 帛 - the electronic device communicates with the other to the second device via the radio communication module or receives the message; receives the coordinate information from the first place or - reads the information of the approximate location; The coordinate information received by the root f or the information obtained by obtaining the approximate position triggers the corresponding function of the first electronic device or triggers the setting of the first work minus the towel. No - a method implementation example of triggering a sub-I to perform a corresponding function, for an electronic device 'where the electronic device has a radio communication module disk 2 radio quality rating. Examples of methods for performing a corresponding function by the present device include: connecting a radio communication module of the electronic device to the radio device; receiving a control command from the wireless county towel; and performing a corresponding function of the electronic device according to the control command. - Trigger, sub-I set to execute the system example of Wei's system, which includes the radio quality evaluation module, and the decision-making function. The radio quality evaluation module is configured to monitor a plurality of radio signals between a first electronic device and a second electronic device, wherein the first electronic device and the second electronic device respectively have a radio communication module and the first electronic device is The second electronic device performs a radio connection. The trigger function module is configured in the first electronic device. The radio quality evaluation module generates a radio signal quality evaluation value according to the signal characteristics of the radio signals, and determines a trigger function module of the second electronic device according to the generated line signal quality evaluation value. Set to one of multiple operating modes - or direct the first electronic device to perform the corresponding function. A system implementation example that triggers an electronic device to perform a corresponding function, a first electronic device, a second electronic device, and at least a radio bridge. The sub-device includes a radio communication group, the electronic device is connected to the electronic communication module through the radio bridge, and the second electronic device generates a corresponding second electronic device according to the plurality of radio signals from the set of the wide device. Coordinate information or - used to obtain a rough position _ capital (4) radio pass domain second 1 sub-device towel receiving seat ^ shell condition or (4) summary position · red to obtain the approximate location information to correspond to the second information or line Features. The first electronic device is guided by the first electronic device, and the 201208421 sub-device is used to connect with the radio communication module of the first electronic device. The decision triggering action module receives a control command from the second electronic device via the radio communication module, and instructs the trigger function module to perform a corresponding function of the first electronic device according to the control command. To make the above features and/or advantages more apparent, the following detailed description is made in conjunction with the accompanying drawings. [Embodiment] The present disclosure provides a method and system for triggering an electronic device to perform a specific function. The electronic device and/or the portable radio device evaluates the radio quality of the radio signal or the I line between the electronic devices and/or the portable radio device. "Electricity, the degree of influence on the radio," and the result of the test is thereby caused by the electronic device or the radio device capable of feeding the electronic device into the appropriate working mode to trigger the electronic device to execute the corresponding Wei. The present disclosure The method example is used to discriminate the radio quality of the radio 5fl transmitted by the recording device on the latter to determine whether the user leaves the computer, and when the user_computer is judged, the computer is led to enter a low power state. 'Sleep mode' to achieve energy-saving effect. In order to understand more clearly, the following will be illustrated with several examples in conjunction with the diagram. Example of a system implementation implementation of the corresponding function of the electronic device; ^ Figure 1 trigger electronic device System 1000 that performs the corresponding function: two flutes: set (also known as first electronic split) 100 and radio (also known as second electronic 200) 6 201208421 The electronic device 100 can operate in a plurality of power supply modes of operation and can communicate with the radio device 200 or capture radio signals of the radio device 2. For example, in the present exemplary embodiment, the electronic device 1 It is a computer. However, it should be understood that the disclosure is not limited thereto, and the electronic device 1 may be any electronic device that can be connected to the radio device 200 or capture the radio signal of the radio device 200. The radio device 200 is used for Sending a radio signal to the electronic device 1' or the radio device 200 is capable of extracting the radio signal transmitted by the analyzing electronic device 1 and after completing the analysis, the radio device 2 can display the result, related information or Control commands and the like are transmitted to the electronic device 100. For example, in the present exemplary embodiment, the radio device 2 is mobile. However, it must be understood that the present disclosure is not limited thereto, and the radio device 200 may be any electronic device. Portable electronic device connected to the device 100. For example, in the present exemplary embodiment, the electronic device 100 and the radio device 200 can be connected via a Bluetooth (Bluet00th) or Widels Fidelity (Wi-Fi) communication protocol, etc. The electronic device 100 receives the radio signal S from the radio device 200 and according to the radio signal S The information in the message or its own characteristics (such as the Received Signal Strength Indication (RSI) or the Signal-to-Noise Ratio (SNR) of the radio signal S to switch its state to the appropriate For example, when the electronic device 1 determines that the evaluation result value of the radio signal from the radio device 200 is greater than the first threshold, the electronic device 100 enters the normal working mode. Moreover, when the electronic device 100 determines that the evaluation result value of the radio signal of the radio device 200 is not greater than the first threshold value, the electronic device 100 enters the low power consumption mode. The commonly used evaluation method may be that the average of the signal strength of multiple receiving ends, the weighted average 'or the continuous or specific distribution of the received signal strengths meet certain conditions (for example, the three consecutive legal signal strengths of the receiving end are greater than a certain Specific values) etc. 'This is used as a way to evaluate. In the foregoing, it is legal, including the communication method conforming to the specifications of the radio communication protocol, or the conditions given by the person (for example, the radio signal captured within the time limit is legal, and the time limit is illegal). 2 is a schematic block diagram of an electronic device 1A according to an exemplary embodiment of FIG. 1. Referring to FIG. 2', the electronic device 100 includes a radio communication module 1〇2, a radio quality evaluation module 104, a decision triggering action module 106 having a working mode switching module 1 and a trigger function module 1〇8. The radio communication module 102 is configured to receive radio signals transmitted by the radio device 2, and the radio communication module 102 can also have a complete capability of communicating with the radio communication module of the radio device 200. In an exemplary embodiment, the radio communication module 1〇2 may be built into the electronic device or connected via a wired connection (for example, a universal serial bus, USB) or a wireless connection.埠 (for example, infrared, GPRS/3G/3.5G/3.75G, Wi-Fi, or Bluetooth) is connected to the electronic device 100. In the present exemplary embodiment, the radio communication module 102 is a module that conforms to the Bluetooth or Wi-Fi specifications. However, the disclosure is not limited thereto, and the radio 8 201208421 communication module 102 is a module that can conform to the Radio Frequency Identification (RFID) technical specification or other radio protocols. The radio quality evaluation module 112 is configured to monitor a plurality of radio signals between the electronic device 1 and the wireless device 200 and generate radio signal quality evaluation values based on the signal characteristics of the radio signals. The decision triggering module 106 sets the triggering function module 108 for driving the electronic device (8) to set the guiding electronic device (10) to the plurality of working modes according to the radio signal quality evaluation value generated by the radio quality evaluation module 1〇4. - Or direct the electronic farm 100 to perform the corresponding function. For example, in the example embodiment, the _ _ _ action module (10) slamming switch mode is also based on the advanced configuration and power interface (Advanced c〇nfig café and P〇wer Interface, ACP job to manage the electronic According to the specification of the device, the working mode of the electronic device can be distinguished, the normal working mode G0, multiple sleep modes (1), soft shutdown mode G2 (S〇ft Off) and shutdown mode (7) (10) (10)_., W in the Γ Γ Γ success mode (hereinafter referred to as training _ in the 'decision triggering action, and the red as the city will just control the electronic farmer touch all the elements are normal operation, and sleep In the mode, the action of the decision triggering action module 1〇6 will be in the specification of the trigger function module (10), the sleep mode is more subdivided (four) mode, S2 mode, S3 mode and S4 mode. In the soft shutdown mode (hereinafter referred to as S5 mode) In the process, the mode switch module 1〇6a of the group 106 is driven to activate the trigger function module i〇8 to maintain the minimum power so that the electronic device can pass through the keyboard, the data machine or the universal sequence. Confluence (Univers In the shutdown mode (hereinafter referred to as S6 mode), the operation mode switching module 106a of the decision triggering action module 106 drives the trigger function module 108 to completely stop the supply of the power supply. The working mode switching module 〇6a of the module 106 is configured to identify the evaluation result value of the radio signal received from the radio device 2 and to determine the trigger function module 104 s according to the evaluation result value of the radio signal. In the disclosure, the radio quality evaluation module 104, the decision triggering action module 106 and the trigger function module 108 having the working mode switching module 1〇6a can be implemented by a hardware circuit or a computer program. When the system triggers the system to perform the corresponding function, the radio device 200 is connected to the electronic device 1. After that, the non-power quality evaluation module 104 detects the connected radio device 2 The radio signal transmitted by 〇〇. Here, the connection means that it is cognitively recognized, at least squared to the other party, or both parties are authenticated. For example, If the radio device 2 is set to look at the electronic device 1GG, the connection between the wire device and the electronic device (10) will be performed in compliance with the Bluetooth protocol and the radio quality evaluation module 104 will be based on the corresponding radio device 2 (8). The tooth identification code to identify the wireless signal from the radio device. = For example, if the radio device 200 and the electronic device 1 communicate with each other through the 10 201208421 H protocol, the radio device 200 and the electronic device 100 can be two, another media access control (MAC) is located in the ',,, line electric farm 200 and the electronic device 1 inside the temporary negative evaluation module 1G4 will be based on the corresponding radio Mac (4) to identify the radio signal from the radio. That is, the line negative evaluation module 104 only detects the radio signal of the connected radio 200, and therefore, the user identity that activates the decision triggering action module to perform the work mode switching is confirmed. . ^The radio quality evaluation module 1 〇4 will obtain the radio signal quality from the detected radio signals, and the decision triggering action module 1〇6 drives the trigger function mode according to the radio sfl number quality or the calculated evaluation result. Group 108 sets the electronic device 1 to the corresponding mode of operation. For example, the radio quality evaluation module 1〇4 calculates the evaluation value of the radio signal quality according to the following formula (1) or formula (2), where the formula (^) is used to calculate the radio signal strength of the direct link, and Equation (2) is used to calculate the multi-link (multiple link) or path (r〇ute) radio signal strength: where 3\ represents the signal strength parameter received by the receiver in the t-th second (signal strength parameter, Average of SNR), p represents the number of SNRs obtained per second, and S\(j) represents the normalized SNR value of the jth SNR in the tth second (ie, S^Cj) between 0 and 1. Secondly, the SNR value can also be replaced by the RSSI (received signal strength indicator) value. 11 201208421 ACLr=vL/f(0 (2) where ACLr represents the cumulative link quality value, i represents the link within this path, and Pr represents the connected set of all links containing this path. In this exemplary embodiment, the radio The quality evaluation module 104 generates a radio signal quality evaluation value according to the radio signal strength (that is, the radio signal strength calculated according to the above formula (1) or (2). For example, the radio quality evaluation module 104 is based on the radio signal. The intensity sets the radio signal quality evaluation value to a corresponding value. In addition, each working mode of the electronic device 10〇 is set to a corresponding radio signal quality evaluation value range. The working mode switching module of the triggering action module 106 is determined. 〇6a will drive the trigger function module 1 〇8 to set the electronic device 100 to an appropriate working mode according to the radio signal quality evaluation value. For example, the working mode switching module 106a of the decision triggering action module 106 The radio signal evaluation results are divided into several areas: strong RSSI region, hysteresis (hysteresis region), weak RSSI region, and disconnection region 〇 In the example where the radio device 200 is separated from the electronic device, when the radio device 200 is in the strong signal region, the electronic device 1〇〇 is in the standby mode, which allows the window's Acpi to operate. When the radio 200 starts to move away from the lag zone, the computer is still in the normal standby mode and needs to wait until the radio 2 is far away. When the range of the lag zone is exceeded, if the radio device 2 falls into the weak zone of the signal, the electronic device 100 is adjusted from the original standby mode to another mode of setting 12 201208421 (for example, closing the screen to reduce energy consumption; Start the window operating system built-in camping lock or other software or hardware to provide the above functions; the above items may need to be adjusted, or used individually.) Secondly, when the radio device 200 is further away from the electronic device 100 and fall to the disconnection area, then the computer will enter sleep mode (or other artificial pre-set mode, or low energy mode) In the example where the radio device 200 is close to the electronic device 100, when the radio device 200 is in the disconnected area, the electronic device 1 is in a sleep mode (or other artificially preset mode, or a low energy mode). When the radio device 200 falls into the weak signal zone, the electronic device 1 will be triggered to a specific preset mode (such as waking up, the screen remains locked, the screen is closed, etc., the foregoing items can be separated or matched Use, or set other states, this disclosure is not limited). When the radio device 2 is slightly closer to the hysteresis zone, the f-package f(10) still turns to the state of the mobile phone in the weak signal zone, and the computer will not be unlocked or turned on until the mobile phone enters the strong signal zone. Standby mode. FIG. 3A is a schematic diagram of a switching mode of operation according to the exemplary embodiment of FIG. 2, which illustrates a jade mode switching module when the electronic device 1 is remote from the electronic device and determines the triggering action module 1G6. The mode of operation is switched on near the radio signal quality 5 flat value between the cellular device 100 and the radio device 200. 'The door reference picture recognizes that when the electronic device 100 and the radio device 2 are ... the line signal quality evaluation value is greater than or equal to the first day, the decision triggers the action module to the working mode switching mode, the group purchase will drive 13 201208421 causes the trigger function module 108 to set the electronic device 100 to the SO mode. When the radio signal quality evaluation value between the electronic device 100 and the radio device 200 is less than the first threshold T1 and not less than the second threshold T2, the working mode switching module 106a of the decision triggering action module 106 drives the trigger function module. Group 108 sets electronic device 100 to S1 mode. When the radio signal quality evaluation value between the electronic device 100 and the radio device 200 is less than the second threshold value T2 and not less than the third threshold value T3, the working mode switching module 106a of the decision triggering action module 106 drives the trigger function module. Group 108 sets electronic device 100 to S2 mode. When the radio signal quality evaluation value between the electronic device 100 and the radio device 200 is less than the third threshold T3 and not less than the fourth threshold T4, the working mode switching module 106a of the decision triggering action module 106 determines the radio device 200. The relative displacement with the electronic device 100 is within the fourth displacement range and drives the trigger function module 108 to set the electronic device 100 to the S3 mode. When the radio signal quality evaluation value between the electronic device 100 and the radio device 200 is less than the fourth threshold value T4 and not less than the fifth threshold value T5, the working mode switching module 106a of the decision triggering action module 106 drives the trigger function mode. Group 108 sets electronic device 100 to S4 mode. When the radio signal quality evaluation value between the electronic device 100 and the radio device 200 is less than the fifth threshold T5 and not less than the sixth threshold T6, the working mode switching module 106a of the decision triggering action module 106 drives the trigger function module. Group 108 sets electronic device 100 to S5 mode. Based on the above, when the user holding the radio device 200 gradually leaves the 14 201208421 electronic device 100, the working mode switching group 106a of the decision triggering action module 1〇6 will follow the electronic device 100 and the radio device 2〇〇. The radio signal quality evaluation value sequentially guides the electronic device 1 to an appropriate low power consumption mode, and is relatively energy efficient. Similarly, when the user holding the radio device 200 gradually approaches the electronic device 100_, the decision to trigger the action mode, the operating mode switching mode of the stage 106 can also tilt the electronic device. _ 3B is a schematic diagram of the Puwei pattern according to the diagrams ι, 2, and the example embodiment, and the green display Γ ΓώΤ device +1 (Κ) # near electronic farm 丨 (9) when the trigger action module green +, work The mode switching module secret wakes up according to the radio signal value of the electronic device (10) disk = = device;: "θ ° Although the working mode is divided into S0 mode, S1 mode =, mode in Figure 3Α The S3 mode, the S4 mode, and the second number are not limited thereto. In addition - the number of working modes can be any number. Referring to Figure 3B, assume that in the Ray; Zhuang class, stay away and be cut into the 5 mode and /. . In the example, the decision trigger action 2 ^ 2 1 electronic device just with the radio device · ίί: r signal quality evaluation value is greater than or equal;:: When returned to 1, the decision trigger action module coffee work mode switch The module 201208421 group 106a will drive the trigger function module i〇8 to set the electronic device 1 to the Ρ0 mode to wake up the electronic device 1〇〇. Similarly, although in Fig. 3, the mode of operation is divided into two modes, a ρ〇 mode and a Ρ5 mode. However, the number of operating modes is not limited to this. In another exemplary embodiment, the number of operating modes may be any number. 4 is a flow chart showing a method of triggering an electronic device to perform a corresponding function, according to the exemplary embodiment of FIGS. Referring to Fig. 4', in step S401, the radio communication module 102 of the electronic device 100 is connected to the radio device 200. In step S403, the radio signal between the electronic device 1 and the radio device 2 is monitored. And in step S405, the radio signal quality evaluation value between the electronic device 100 and the radio device 200 is generated in accordance with the radio signal characteristics between the electronic device 100 and the radio device 200. In step S407, it is determined whether the radio signal quality evaluation value between the electronic device 100 and the radio device 200 has changed to another range. If the radio signal quality evaluation value between the electronic device 100 and the radio device 200 has changed to another range, in step S409, the trigger function module 1 8 of the electronic device 100 is set to the corresponding operation mode. The manner of setting the corresponding working mode has been described in detail with reference to Figs. 3 and 3, and the description will not be repeated here. If it is determined that the radio signal quality evaluation value between the electronic device 1 and the radio device 200 has not changed to another range, or after the step S409 16 201208421 is performed, the flow moves to step S403 to continue execution to continuously monitor the electronic data. A radio signal between the device 1 and the radio 200. In step S405, the radio quality assessment module 104 generates a radio signal quality evaluation value based on the radio signal strength. However, the disclosure is not limited thereto, and the radio quality assessment module 104 may also use other information retrieved from the radio signal to generate radio signal quality evaluation values between the electronic device 100 and the radio device 200. For example, in another exemplary embodiment, the radio quality assessment module 1 〇 4 will continuously monitor the trend of the radio signal strength according to the trend. For example, the radio quality assessment module 104 calculates the trend of the radio signal strength over a period of time in an average or weighted average manner. Moreover, the radio quality evaluation module 104 generates a radio signal quality evaluation value between the electronic device 1 and the radio device 200 based on the calculated change trend. For example, when the trend of the change in signal strength gradually becomes weak, it indicates that the radio device 200 gradually leaves the electronic device 100. In some cases, or using the special wireless pen pass protocol "In order to achieve a certain quality of the received radio signal at the receiving end, the transmitting end can increase the transmitting power, and the parameter of the lifting power multiplier of the South is also Can be used as one of the parameters to provide evaluation or calculate the quality of radio signals. Accordingly, the operation mode switching module 1 〇 6 a of the decision triggering action module 1 会 6 sets the trigger function module 108 to the low power mode. When the trend of the intensity changes gradually, it indicates that the wireless attack 200 is gradually approaching the electronic device 100. Therefore, the working mode switching module 106a of the decision triggering action group 106 can trigger the function module 108 when the radio signal quality evaluation value between the electronic device 1 and the radio device 200 is greater than the first gate 17 201208421 threshold. To normal working mode. In addition, for example, in another exemplary embodiment, the operating mode switching module 丨〇 6 a of the decision triggering action module 1 亦可 6 may also set the operating mode according to the time density of the radio beacon. For example, the radio quality assessment module 104 determines the number of beacons received per second to produce a radio signal quality evaluation value between the radio device 200 and the electronic device (8). For example, when a radio signal is transmitted, it will be weakened. Especially when the receiving end is located at the edge of the coverage of the signal at the transmitting end, sometimes the signal is sometimes not generated when the signal is generated, or sometimes it is weak or weak. A situation that cannot be received correctly and is missing. At this time, the number of radio beacons transmitted by the receiving end (or the number of beacons per unit time) may be less than the number sent by the transmitting end. Therefore, the closer the radio device 2 is to the electronic device 100, the higher the received beacon time density due to the reduced number of missed beacons. When the radio device 2 is farther away from the electronic device 1 , the time density of the received beacon will be lower. Accordingly, the radio signal quality evaluation value between the radio device 200 and the electronic device 100 can be generated according to the beacon time density as shown in FIG. 3, thereby driving the trigger function module 108 to set the electronic device 1 to the number. One of the working modes is an appropriate working mode. Further, for example, in another exemplary embodiment, radio quality evaluation = group <104 will calculate the trend of beacon time density over a period of time based on the continuously received radio beacon time density " For example, the radio quality evaluation module 104 will calculate the trend of the time density of the beacon over a period of time in an average or weighted average manner. Moreover, the mode switch module 106 sets the radio quality evaluation and trigger function module 104 to the corresponding work mode according to the calculated change trend. For example, when the trend of the time density of the beacon appears to gradually become lower, it means that the radio device gradually leaves the electronic device 100. Accordingly, the operating mode switching module 106a of the decision triggering module 106 drives the triggering function module 108 to set the electronic device 1 to the low power mode. When the trend of the beacon is gradually becoming higher, it means that the radio farm is gradually approaching the electronic device 100. Accordingly, the operating mode switching module 106a of the decision triggering action module 1〇6 drives the triggering function module 1〇8 to set the electronic splitting 1〇〇 to the normal operating mode. In another exemplary embodiment, when the radio device 2 is connected to the radio communication module 1〇2 of the electronic device 100, the working mode switching module 106a of the decision triggering action module (10) processes and records the electronic device 100. The best radio signal quality between devices 200. For example, the county-wireless cable is recorded as a thief (for example, the quality of the radio signal obtained by the electric measurement is defined as the near-end high-quality, and the evaluation result is received. The evaluation result corresponds to each of the ring radios 2 used. The best radio signal between the two 201208421 or the radio signal quality evaluation results of the special situation may have an impact on the erroneous evaluation of the real objective situation. In the present exemplary embodiment, the radio quality evaluation module 104 is based on a solid The monitoring frequency repeatedly detects the radio signal between the monitoring electronic device 1 and the radio device 200 t to generate a radio signal quality evaluation value. However, the disclosure is not limited thereto, and in another exemplary embodiment, the radio quality evaluation The module 104 can also monitor the radio signal between the electronic device 100 and the radio device 200 according to a variable monitoring frequency. For example, the radio quality evaluation module 104 can be based on the acceleration of the radio device 2 (G-Sensor) ), gyroscope (Gyr〇) or electronic compass (E_c〇mpass) a measurement result (such as the magnitude of change) to adjust The monitoring frequency is adjusted, or the monitoring frequency is adjusted according to a signal of the keyboard or the mouse of the electronic device 100. In the present exemplary embodiment, the radio signal strength between the electronic device i and the radio device 200 is monitored and according to the electronic The radio signal strength between the device 1 and the wireless device 2G0 is used to generate the radio signal quality. The operation of the flat value is performed by the electronic quality of the electronic device, and is triggered by the decision of the electronic device IQ. The action module 1〇6 drives the trigger function module 35(10) to set the electronic device i1 to the corresponding working mode or perform the corresponding function. The present disclosure is not limited thereto, and in another exemplary embodiment, monitoring The radio signal strength between the radio device 200 and the radio signal between the electronic device 100 and the radio device 200 can also be performed by the radio cell 200. That is, the radio Quality evaluation module 1〇4 also 20 201208421 Configurable in radio 2 (8), by radio to generate no The line signal quality evaluation value. In addition, in another exemplary embodiment, the radio quality evaluation module 1〇4 and the decision triggering action module 1Q6 may also be configured in the radio device 2 (10), and generated by the radio device 2〇〇. The radio signal quality evaluation value and based on the generated radio signal quality evaluation value, drives the trigger power group 108 to set the electronic device 100 to the corresponding working mode or the corresponding function. In the exemplary embodiments of FIGS. 1 and 2, the electronic The device directly receives the radio signal from the radio device and generates a radio number quality evaluation value according to the bellows in the received radio signal (for example, radio signal strength, radio signal beacon time density, or I system heart order). . In another embodiment, the electronic device can also receive the radio signal set by the radio through the wireless bridge. That is, the radio signal of the radio is transmitted to the electronic device through the wireless bridge. FIG. 5 is a schematic diagram of the operation of the system for triggering the electronic device to perform the corresponding function according to another exemplary embodiment. Referring to FIG. 5, the system for triggering the electronic device to perform the corresponding function includes the electronic device 100, the radio device 200, and the radio bridge 53〇2. In the present exemplary embodiment, the radio bridge 53A is configured to receive the radio signal transmitted by the radio unit 200 and forward the radio signal transmitted by the radio unit 2() to the electronic device 1. Similar to the exemplary embodiment of FIG. 1, the electronic device 100 generates a radio signal according to the information in the radio signal of the radio device 200, and enters a corresponding working mode according to the radio signal quality evaluation value. That is, the radio quality evaluation module 104 acquires the radio signal strength between the electronic device 100 and the radio device 200, generates a radio signal quality evaluation value according to the radio signal strength, and determines the trigger action module 106 according to the generated The radio signal quality evaluation value drives the trigger function module 108 to set the electronic device 100 to the corresponding working module (as shown in FIG. 3). In the present exemplary embodiment, the electronic device 100 and the radio bridge 5302 can be connected through a wireless channel or a wired channel. That is, when receiving the radio signal of the radio device 200, the radio bridge 5302 can transmit the information about the radio signal to the electronic device 1 through the wireless channel or the wired channel. In another exemplary embodiment, the electronic device enters an appropriate mode of operation based on coordinate information received from the radio. FIG. 6 is a schematic diagram of the operation of a system for triggering an electronic device to perform a corresponding function according to another exemplary embodiment. Referring to FIG. 6, the system 6 for triggering the electronic device to perform the corresponding function includes the electronic device 6100, the radio device 6200, the radio bridge 6302, the radio bridge 6304, and the radio bridge 6306. The electronic device 6100 has a radio communication module 1 2, a radio quality evaluation module 104, a decision triggering action module 61 〇 6 and a trigger function module i 〇 8 (shown in FIG. 7). The radio communication module 102 is configured to communicate with the radio device 62 and receive radio signals from the radio device 6200. 22 201208421 The decision triggering action module is configured to identify the relative displacement between the radio device 6· and the electronic device f 6100 according to the coordinate information received from the radio device 62〇〇, and determine the bit power corresponding to the relative displacement. The surrounding 'triggering of the Wei module (10) shape to the corresponding one mode. . The radio device 6200 is configured to transmit wireless to the electronic device 61, or not, and the electrical device 62 can obtain information from the radio bridge 632, the bridgeless 6304, and the radio bridge 6306 to the electronic device 6100. For example, in this implementation, the radio 6200 is a mobile phone. However, it must be understood that the present disclosure is not limited to the radio device 6200 being any portable electronic device that can be coupled to the electronic device 61. The radio bridge 63G2, the radio bridge 6 and the radio bridge 6306 are capable of communicating with the radio 6 and are used to transmit finely from the purely scaly device 6 respectively. Alternatively, the wireless money can be misinterpreted by its own decoding, measurement or look-up of the radio signal, etc., in the approximate location or space of the radio bridge 6302, the radio bridge 6 and the radio adapter 6306. The range of seating. Figure 8 is a schematic diagram of a radio of the radio shown in accordance with the embodiment of Figure 6; r Please refer to the ® 8, the radio device 62 has a microprocessor 62 〇 2, ^ memory 14 with, money material charm 6 singular line communication module 1 processing S 62G2 to control the operation of the radio device 62GG, = The memory class (4) is temporarily stored, and the calculation pool is used. The coordinates of the different radios 6200, and the radio communication module 62 〇 8 23 201208421 are used to receive and transmit radio signals. In the present exemplary embodiment, the coordinate calculation module 6206 of the radio device 62 is used according to the coordinate information received from the radio bridge 63 〇 2, the radio bridge phantom (10), none, and the bridge 63 〇 6 ―Indoor positioning algorithm to calculate its own coordinates. For example, the radio bridge 63〇2 two radio bridge 6304 and the radio bridge 6306 can be set to = fixed coordinates. Thus, the coordinate calculation module (4) 6 can estimate the distance between the eight and the radio bridge 63〇2 based on the radio communication, the radio signal between the group 6208 and the radio bridge (4). Similarly, the coordinate calculation module 6206 can be used to distinguish the distance from the escape bridge and the radio bridge 6306. Based on the coordinates of the push, the coordinate calculation module 62〇6 can calculate the coordinates from the coordinates of the wireless bridges. It must be understood that 'in another example embodiment towel, the radio device 6200 can also be used to decode, measure or look up the radio signal, to bridge the H 6 move, the radio bridge with the radio The location of the bridge or the location of the space in the space, and obtain a rough location radio device 6200 will pass the calculated coordinates to the electronic device _. Based on this, the I mode switching module 61〇6 ^ sets the corresponding working mode according to the received coordinates. In the present disclosure, the coordinate calculation module 6206 can be implemented by a hardware circuit or a computer program. Figure 9 is a flow chart showing a method of executing a corresponding ship according to the example of Figures 6, 7, and 8. ^子 24 201208421 Referring to Fig. 9, in step _, the radio communication module 102 of the electronic device 6i is connected to the radio device 62A. Next, in step S903, the benefit line signal is received from the radio unit 62A. And, in step S9, the coordinates information is obtained from the radio signal. Then, in step S907, it is judged based on the coordinate information acquired from the radio signal whether the relative displacement of the radio device 62 has changed to another displacement range. If the relative displacement of the radio device 6200 has changed to another displacement range, the trigger function module group 108 of the electronic device 61A is set to the corresponding operation mode in step S909. If the relative displacement of the right radio 6200 has not changed to another range of shifts, or after step § 909 is performed, the flow moves to step § 903 to continue to receive the radio signals transmitted by the electronic device 62. In the exemplary embodiment of FIG. 1, the electronic device directly receives the radio signal from the wireless packet device and enters the corresponding information according to the information in the received radio signal (eg, radio signal strength, radio signal beacon time density, or control command). Working mode. However, the decision triggering action module can set the trigger function module to the corresponding working mode or trigger the electronic device to perform the corresponding function according to the control command transmitted by the radio device. 2 is a system for triggering an electronic device to perform a corresponding function according to still another exemplary embodiment, and FIG. 11 is a schematic block diagram of the electronic device according to the exemplary embodiment of FIG. 25 201208421 Please refer to FIG. 1 ο 'The system for triggering the electronic device to perform the corresponding function 9 〇 〇 包括 includes the electronic device 9100 and the radio device 92 〇〇. The electronic device 9100 and the radio device 9200 are devices that can communicate with each other. For example, in the present exemplary embodiment, electronic device 9100 is a computer and radio device 92 is a mobile electrical activity. However, it must be understood that the disclosure is not limited thereto. The electronic device 9100 includes a radio communication module 1〇2, a decision triggering action module 9106, and a trigger function module 1〇8. The decision triggering action module 910 6 is coupled to the radio communication module 丨〇 2 and is used to control the trigger function module 1 〇 8 of the control electronic device 9100 according to the control command from the radio device 9200. The user can directly transmit control commands to the electronic device 9100 using the radio 9200. Moreover, when the radio communication module 102 of the electronic device receives the control command from the radio device 9200, the decision triggering action module 9106 recognizes the control command and drives the trigger function module 1 to 8 according to the control command. To set the corresponding working mode or open the corresponding software. For example, the control command can be the same as the wake-up control command of the host device 9100 via a mouse, keyboard, wireless or wired network. For example, when the electronic device 9100 is in the sleep mode and the radio communication module 1〇2 receives the wake-up control command from the radio device 9200, the decision triggering action module 9106 drives the trigger function module 1〇8 to set to normal operation. mode. For example, the control command can also be a control command indicating that the computer screen is turned off. For example, when the user leaves the electronic device 91, the user can operate the radio device 9200 to send a control command to turn off the computer screen to the electronic device 9100. Moreover, when the radio communication module 1 接收 2 receives the control command from the radio device 9200 to turn off the computer screen, the decision triggering action module 9106 will indicate that the trigger function module is 1 〇 8 ^ ^ The power of the screen (not shown) is turned off. Alternatively, the decision-making % action module 9106 adjusts a brightness of the screen according to the received control command or sets the electronic device 9100 to an energy-consuming mode. In the present exemplary embodiment, the radio communication module 1〇2 and the decision triggering action module 9106 can still receive and recognize control commands from the radio device 9200 when the electronic device 9100 enters the soft power off mode. Figure 12 is a flow chart showing a method of triggering an electronic device to perform a corresponding function according to the exemplary embodiment of Figures 1 and η. Referring to Figure 12, in step S1201, a control command is received from the radio. Then, in step S12〇3, the received control command is identified.
最後,在步驟S1205中,根據所識別的控制指令觸發 電子裝置的對應功能。 X 在圖1、2範例實施例中,電子裝置是直接接收來自 ;線電j置的無線電訊號並且根據所接收之無線電訊號 中的資訊(例如’無線電訊號強度、無線電訊號信標時間^ 度或控制指令)進入對應的工作模式。此外,在另一範例; 把例中,作模式城触更可朗來自於無線電農置的 使用者㈣與細輕碼或足㈣為制制者身份的身 仏戠別碼來將電子裝置自動上鎖、自動解鎖或開啟至對應 27 201208421 的使用者工作帳號或是工作模式。以下將使㈣丨與圖2 來描述本範例實施例。 ^ 在本範例實施例中,當電子裝置1⑻因無線電裝置200 的遠離時,決_發動賴組觸的卫作模式切換敎 l〇6a會根據自動地將電子裝置上鎖。並且,當電子裝置1〇〇 因無線電裝置200的靠近而從睡眠模式中被喚醒(即,進入 正常工作模式)時’鱗f裝置會傳錢用者帳號與使 用者密瑪給電子裝置並且’當無線電通訊模組j〇2 接收到來自於鱗電裝置之錢者帳號與使用者密碼 時’決斷觸發動作模組1()6的工作模式切換模組丨輸會根 據所接收到的使用者帳號與使用者密碼將解鎖電子裝置並 且開啟至對應的使用者工作帳號或是工作模式。 例如,決斷觸發動作模組106的工作模式切換模組 l〇6a會透過無線電去得知無線電裝置2〇〇上的資訊(例如, MAC訊息,或是可以用作識別無線電裝置2〇〇的資訊)。然 後,決斷觸發動作模組106的工作模式切換模組1〇如便可' 自動立入至對應的使用者工作帳號或是自動進入對應的使用 者工作模式。 〜 此外,在另一範例實施例中,決斷觸發動作模組1〇6 的工作模式切換模組l〇6a更可於解鎖電子裝置之後自動 執行特定功能。例如,決斷觸發動作模組106的工作模式 切換模組l〇6a會根據所接收到的使用者帳號與使用者密 碼自動幫使用者啟動設定的軟體(如網頁瀏覽器等)或是啟動 没疋的功能(如監測鍵盤或是滑鼠有無被使用),作為調整監測 28 201208421 電子裝置100與無線電裝 考。 l·* i 士、々 Jjrfr -ί-Λ* /<J *4-*Finally, in step S1205, the corresponding function of the electronic device is triggered in accordance with the identified control command. X In the exemplary embodiments of FIGS. 1 and 2, the electronic device directly receives the radio signal from the line and according to the information in the received radio signal (eg 'radio signal strength, radio signal beacon time ^ or The control command) enters the corresponding working mode. In addition, in another example; in the example, the mode city touch is more suitable from the user of the radio farm (4) and the fine code or the foot (4) is the body code of the system to automatically automate the electronic device. Lock, automatically unlock or open to the user account or work mode corresponding to 27 201208421. The present exemplary embodiment will be described below with (4) and FIG. In the present exemplary embodiment, when the electronic device 1 (8) is remote from the radio device 200, the switching mode switch 敎1〇6a automatically locks the electronic device according to the automatic device. Moreover, when the electronic device 1 is awakened from the sleep mode due to the approach of the radio device 200 (ie, enters the normal working mode), the 'scale device transmits the user account and the user to the electronic device and ' When the radio communication module j〇2 receives the money account and the user password from the scale device, the operation mode switching module of the decision triggering action module 1 () 6 will be based on the received user. The account number and user password will unlock the electronic device and open to the corresponding user work account or work mode. For example, the working mode switching module 106a of the decision triggering action module 106 can know the information on the radio device 2 (for example, the MAC message or can be used as the information for identifying the radio device 2) through the radio. ). Then, the working mode switching module 1 of the decision triggering action module 106 can automatically enter the corresponding user work account or automatically enter the corresponding user working mode. In addition, in another exemplary embodiment, the working mode switching module 106a of the decision triggering action module 1〇6 can automatically perform a specific function after unlocking the electronic device. For example, the working mode switching module 106a of the decision triggering action module 106 automatically starts the set software (such as a web browser, etc.) or starts without according to the received user account and the user password. The function (such as monitoring the keyboard or the mouse is used), as an adjustment monitor 28 201208421 electronic device 100 with radio test. l·* i 士,々 Jjrfr -ί-Λ* /<J *4-*
Αη. _ ▼ 从,,叫在-1- /U 〇仰包β回與I 置200之間連線狀態”頻率之參 r的是相關可以作為判別使用者在電腦旁邊使用電 置早70。當侧結麵現使用者就在電職近,此 可㈣變監麵率、暫時降低或是暫停去監測與無 ^、置200之間無線電訊號的品質,藉此來更進一步節 省,關電子裝置運行本揭露方法範例所需要耗費的電能與 運算資源。 、 y舉例來說,在目前作業系統中,當進入睡眠模式之 後,電子裝置100會自動處於上鎖狀態。之後,在使用者 j醒電子裝置100之後,必須要輸入使用者帳號與使用者 雄碼方可解除電子裝置1〇〇的上所狀態以繼續使用電子裳 置100。在本範例實施例中,決斷觸發動作模組1〇6的工 作模式切換模組l〇6a會在根據無線電訊號品質評測數值 來驅使觸發功能模組108設定至正常工作模式之後,識別 無線電裝置200所傳送之使用者帳號與使用者密碼並且開 啟至對應的使用者工作帳號或是工作模式。 圖13是根據另一範例實施例所繪示之觸發電子裝置 執行對應功能之方法的流程圖。 請參照圖13,當電子裝置100從睡眠模式進入正常工 29 201208421 時,在步驟咖中,從無線電裝置中接收 帳號”使用者密碼。然後,在步驟sl3〇3中,根據所接 的使用者帳號與使用者密碼對電子褒置1〇〇 ^ 開啟至對應的使用者工作帳號或是工作模式。解姐且 署二t斤述,本揭露之範例實施例所提;的觸發電子裝 置執仃對應功能之方法與系統是藉由獲取 ,=置所發送的無線電訊號的特„訊(例如, 私的時間密度)來識別使用者與電子 —σ 此將電子裝置導引至適當的工作模式:=之由 提供_發電子裝置執行對應特定功= 裝置執行對應特定功能控基=:=座露= 1 ίί:之識別碼(例如,使用者帳號與使用者密 範例實施例所提供的方法與系統能夠在安全 鎖'解鎖電子裝置或者根據手機資訊(如 ^疋使用者tfi息資訊或是註冊資訊_啟至對應的使用 者工作帳號或是m由此讀㈣者的使用。 雖然本揭露已以實施例揭露如上,然其並非用以限定 本揭露,任何所屬技術領域中具有通常知識者,在不脫離 2露之精神和範圍内,當可作些許之更動與潤饰,故本 之保護範圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 201208421 圖1是根據一範例實施例所繪示之觸發電子裝置執行 對應功能之系統的運作示意圖。 圖2是根據圖1範例實施例所繪示的電子裝置的概要 方塊圖。 圖3A是根據圖1、2範例實施例所繪示之切換工作模 式的範例示意圖。 ' 圖3B是根據圖1、2範例實施例所繪示的切換工作模 式的範例示意圖。 圖4是根據圖1、2範例實施例所繪示的觸發電子農 置執行對應功能之方法的流程圖。 圖5是根據另一範例實施例所繪示之觸發電子裝置執 行對應功能之系統的運作示意圖。 圖6是根據另一範例實施例所繪示之觸發電子裝置執 行對應功能之系統的運作示意圖。 圖7是根據圖6範例實施例所繪示的電子裝置的概要 方塊圖。 圖8是根據圖6範例實施例所繪示的無線電裝置的概 要方塊圖。 圖9是根據圖6、7、8範例貫施例所纟會示的觸發電子 裝置執行對應功能之方法的流程圖。 圖10是根據再一範例實施例所繪示之觸發電子裝置 執行對應功能的系統。 圖U是根據圖10範例實施例所繪示之電子裝置的概 要方塊圖。 31 201208421 圖12是根據圖1 〇、11範例實施例所纟會示之觸發電子 裝置執行對應功能的方法的流程圖。 圖13是根據另一範例實施例所緣示之觸發電子裝置 執行對應功能之方法的流程圖。 【主要元件符號說明】 1000 :觸發電子裝置執行對應功能之系統 100 :電子裝置 200 :無線電裝置 s:無線電訊號 102 :無線電通訊模組 104 :無線電品質評測模組 106 :決斷觸發動作模組 106a :工作模式切換模組 108 :觸發功能模組Αη. _ ▼ From,, in the -1- /U 包 包 β β 与 与 与 与 I ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” ” When the user of the side junction is in the electric position, this can be (4) change the rate of the face, temporarily reduce or pause to monitor the quality of the radio signal between the device and the device 200, thereby further saving the electronic The device runs the power and computing resources required by the method of the disclosed method. y For example, in the current operating system, after entering the sleep mode, the electronic device 100 is automatically locked. After that, the user j wakes up. After the electronic device 100, the user account and the user code must be input to release the state of the electronic device 1 to continue to use the electronic device 100. In the present exemplary embodiment, the action module 1 is triggered. The working mode switching module l6a of 6 identifies the user account and the user transmitted by the radio device 200 after the trigger function module 108 is set to the normal working mode according to the radio signal quality evaluation value. FIG. 13 is a flowchart of a method for triggering an electronic device to perform a corresponding function according to another exemplary embodiment. Referring to FIG. 13, when the electronic device 100 When entering the normal mode 29 201208421 from the sleep mode, in the step coffee, the account "user password" is received from the radio. Then, in step sl3〇3, according to the connected user account and the user password, the electronic device is set to the corresponding user work account or the working mode. The method and system for triggering the electronic device to perform the corresponding function are obtained by acquiring, = placing the radio signal transmitted by the device (for example, private). Time density) to identify the user and the electronic - σ This guides the electronic device to the appropriate working mode: = provided by - the electronic device performs the corresponding specific work = the device performs the corresponding specific function control = = = seat dew = 1 ίί: The identification code (for example, the user account and user secret example embodiments provide a method and system that can unlock the electronic device in the security lock or according to the mobile phone information (such as ^ user tfi information or registration information) _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Without departing from the spirit and scope of 2, the scope of protection may be subject to the definition of the patent application scope. [Simplified illustration] 20120842 1 is a schematic diagram of the operation of a system for triggering an electronic device to perform a corresponding function according to an exemplary embodiment. FIG. 2 is a schematic block diagram of an electronic device according to an exemplary embodiment of FIG. 1. FIG. FIG. 3B is a schematic diagram showing an example of a switching operation mode according to the exemplary embodiments of FIG. 1 and FIG. 2. FIG. 4 is a schematic diagram of an example according to the example of FIG. FIG. 5 is a schematic diagram of a method for triggering an electronic device to perform a corresponding function according to another exemplary embodiment. FIG. 6 is a schematic diagram of operation of a system for triggering an electronic device to perform a corresponding function according to another exemplary embodiment. FIG. 7 is a schematic block diagram of an electronic device according to an exemplary embodiment of FIG. 6. FIG. 8 is a schematic block diagram of an exemplary embodiment of FIG. FIG. 9 is a flow chart of a method for triggering an electronic device to perform a corresponding function according to the example embodiments of FIGS. 6, 7, and 8. FIG. FIG. 9 is a schematic block diagram of an electronic device according to an exemplary embodiment of FIG. 10. 31 201208421 FIG. 12 is a diagram according to FIG. FIG. 13 is a flow chart showing a method for triggering an electronic device to perform a corresponding function according to another exemplary embodiment. FIG. 13 is a flowchart of a method for triggering an electronic device to perform a corresponding function according to another exemplary embodiment. 1000: System 100 for triggering electronic device to perform corresponding function: Electronic device 200: Radio device: Radio signal 102: Radio communication module 104: Radio quality evaluation module 106: Decision triggering action module 106a: Working mode switching module 108 : Trigger function module
S401、S403、S405、S407、 S409 .工作模式切換的步 5000 5302 6000 6100 6200 觸發電子裝置執行賴功能之系統 無線電橋接器 觸發電子裝置執行對應功能的系統 電子裝置 無線電裝置 6302、63G4、63G6 :無線電橋接器 6106 :決斷觸發動作模組 32 201208421 6202 微處器單元 6204 緩衝記憶體 6206 座標計算模組 6208 無線電通訊模組 S901、S903、S905、S907、S909 :觸發電子裝置執行 對應功能的步驟 9000 :觸發電子裝置執行對應功能的系統 9100 :電子裝置 9200 :無線電裝置 9106 :決斷觸發動作模組 S1201、S1203、S1205 :觸發電子裝置執行對應功能 的步驟 S1301、S1303 :在重新進入正常工作模式後解鎖電子 裝置的步驟 33S401, S403, S405, S407, S409. Steps of working mode switching 5000 5302 6000 6100 6200 System radio bridge triggering electronic device to perform the function of the system The electronic device radios 6302, 63G4, 63G6 perform the corresponding functions: radio Bridge 6106: Decision Trigger Action Module 32 201208421 6202 Microprocessor Unit 6204 Buffer Memory 6206 Coordinate Calculation Module 6208 Radio Communication Module S901, S903, S905, S907, S909: Step 9000 for triggering the electronic device to perform the corresponding function: The system 9100 for triggering the electronic device to perform the corresponding function: the electronic device 9200: the radio device 9106: the decision triggering action module S1201, S1203, S1205: the step S1301, S1303 for triggering the electronic device to perform the corresponding function: unlocking the electronic after re-entering the normal working mode Step 33 of the device