M329579 八、新型說明: 【新型所屬之技術領域】 本創作係提供一種免鑰匙辨識器,尤指一種透過指紋辨識來設 定該免鑰匙辨識器之開啟/關閉狀態。 【先前技術】 ❿ 隨著汽車對於人類生活的重要性日益的提高,汽車已成為每個 現代人生活的一部份,汽車也從過去單純的運輸工具,再加上了 許多不同面向的要求,以滿足現代社會生活的多元化。為了提供 車主更多使用的便利性,目前有很多汽車都配置了免鑰起車門啟 閉系統及引物控啟⑽、統,讓車主擺脫多年來找鑰匙的困擾。 ,車主攜帶著晶片鑰匙時,只要在—公尺的偵測細内,晶^ =的電路系統會將内建的ID訊號發送出知提供給汽車的‘ 電腦進行檢驗’當在確認ID喊崎無辦,車括 座車門外__她嫩竭__,使; 能自由進出車輛。 雖然免鱗恤___物鱗給車主不少 片::也提高了汽車失竊的可能性’若是車主不小心遺失晶 二知’獻撿到了“銳後,只絲狀車,完全 曰 力喊能《轉佩。耻,為了嫩靖形發生,、 5 M329579 目前的晶㈣匙f要加磁良’車財能在享受免缺 系統及引擎觸控啟動系統所帶來之便利的同時,卻又 : 車失竊關題。% 【新型内容】 本創作係提供-鑰匙辨麵,其包含有—影像辨識模组以 及-無線傳輸模组。該免鑰匙辨識器係用以控制一特定穿置泫 .Γ單'=、—齡早70以及—影像辨識處理單元。該影 像輸入早讀用來接收對應於一使用者之生物特徵之一影料 戒。該儲存單元係用來儲存對應於至少一特定使用者之生物特徵 =-_料。該影像辨識處理單元_接於該影像輸入單 ·!;儲存早70,用來將該影像訊號與館存於該儲存單元的該預 行輯以輸出—第—控制訊號。該無線傳輸模組係用來 開該特\==傳送Γ無線控制訊細特定裝置,以打 、’早70 °錢餘匙辨識器另包含-免鍮起啟動 元判斷該啟/義狀態。當該影像辨識處理單 像辨識處理單元係輸出該第子定預設資料吻合時,該影 At 控制汛號以设定該免鑰匙啟動模組 元;%^該影像辨識處理單元判斷該影像訊號與該儲存單 —預賴㈣μ,娜_物單元係輸出該第 6 M329579 關閉狀態。 ’控制訊號以設定該免鑰匙啟動模組為 指紋辨識器 於—實施例中’該生物賴係為指紋。 於一實施例中,該影像辨識·係為_ 於一實施例中’該免输匙辨識器係為一可攜式免输匙職器。 及-本 =乍=^且一^输匙辨識器,其包含有一影像辨識模組以 接收對應於-使用者之生物入單元係用來 :存對應於至少-特定使用者之生物特徵::=用 4像辨識處理單元係耦接於該影像輪元、 :將該影像訊號與儲存於該儲存單元的該預娜 出一第-控舰號。該鱗傳輸·_來 , 號’傳送—第-無線控觀號至該特絲置,其中該控^= 雜該第-無線控制訊號來㈣該特絲置上之鎖單元。該免錄 地辨識器另包含-免鑰匙啟動模組’輕接於該影像辨識模植,用 來接收該第,m號,並依據料來設定其開啟/關 閉狀態。當郷像賴處理單元判_景彡像職與該儲存單元中 一特定預設資料吻合時,該影像辨識處理單元係輸出該第一控制 訊號以設定該免鑰匙啟龍組為·狀態;#該影_識處^單 7 M329579 =判斷4树峨與該齡單元中任_賊資料皆不吻合時,該 4辨識處理單元係輸出該第—控制纖以設定該錄匙啟動模 組為關閉狀態。 於一貫施例中,該免鑰匙辨識器另包含一無線接收模組。其 ^。亥…、線傳輸模組係為一紅外線(InfraredRay)傳輸模組,而 該無線接收模組係為一紅外線接收模組。 於-實施例中,該免錄匙辨識器另包含一無線接收模組,其 中’该無線傳輸模組係為一射頻傳輸模組,而該無線接收模組係 為一射頻接收模組。 於一實施例中,該特定裝置係為一汽車。 於一實施例中,該影像辨識模組係為一指紋辨識器。M329579 VIII. New Description: [New Technology Field] This creation provides a keyless identifier, especially one that sets the on/off status of the keyless identifier through fingerprint recognition. [Prior Art] ❿ With the increasing importance of cars for human life, cars have become a part of every modern life. Cars have also used simple transportation tools from the past, coupled with many different requirements. To meet the diversity of modern social life. In order to provide more convenience for the owner of the car, many cars are equipped with a key-free door opening and closing system and a primer control (10) system, so that the owner can get rid of the problem of finding a key for many years. When the owner carries the wafer key, as long as the detection of the meter is fine, the circuit system of the crystal ^ will send the built-in ID signal to the 'computer for inspection' of the car. Nothing to do, the car is outside the car door __ she is tender __, to make; free to enter and exit the vehicle. Although the scale-free shirt ___ scales to the owner of a lot of films:: also increased the possibility of car theft 'If the owner accidentally lost the crystal two know 'send to the "rear, only the silky car, completely shouting Can "transfer. Shame, for the appearance of tenderness, 5 M329579 current crystal (four) spoon f to add magnetic good" car wealth can enjoy the convenience of the system and the engine touch start system, but Also: The car is stolen. % [New content] This creation provides a key identification, which includes an image recognition module and a wireless transmission module. The keyless identifier is used to control a specific wear. Γ单'=, 早早早70 and - image recognition processing unit. The image input early reading is used to receive a shadow ring corresponding to a biometric of a user. The storage unit is used to store at least one corresponding to at least one The biometrics of the specific user=-_. The image recognition processing unit_ is connected to the image input list·!; the storage is early 70, and the image signal is stored in the pre-line of the storage unit for output. - the first control signal. The wireless transmission module is used Open the special \== transmit Γ wireless control signal specific device, to play, 'early 70 ° 余 匙 辨识 辨识 另 另 另 另 另 判断 判断 判断 判断 判断 判断 判断 判断 判断 判断 判断 判断 判断 判断 判断 判断 判断 判断 判断 判断 判断 判断 判断When the processing unit outputs the first preset data, the shadow At control 汛 is used to set the keyless activation module element; %^ the image recognition processing unit determines the image signal and the storage list—pre-during (four) μ The __ element unit outputs the 6th M329579 off state. The control signal is used to set the keyless activation module as a fingerprint identifier. In the embodiment, the biological system is a fingerprint. In an embodiment, the image Identification _ In one embodiment, the free key identifier is a portable keyless device. And - this = 乍 = ^ and a key identifier, which includes an image recognition module The group is configured to receive a biological input unit corresponding to the user: to store the biometric corresponding to at least the specific user::= coupled to the image wheel by the 4 image recognition processing unit, the image signal And the first-controlled ship that is stored in the storage unit The scale transmission · _, the number 'transmission - the first - wireless control view to the special wire, wherein the control ^ = the first - wireless control signal to (four) the lock unit placed on the wire. The ground identifier further includes a keyless activation module that is lightly connected to the image recognition module for receiving the first, m number, and setting the on/off state according to the material. When the image matching operation matches a specific preset data in the storage unit, the image recognition processing unit outputs the first control signal to set the keyless Qilong group to the state; #影影_识处^单7 M329579 If the 4 tree 峨 does not match any of the _ thief data in the aging unit, the 4 identification processing unit outputs the first control fiber to set the key activation module to the off state. In a consistent embodiment, the keyless identifier further includes a wireless receiving module. Its ^. The Hai... cable transmission module is an infrared (Infrared Ray) transmission module, and the wireless receiving module is an infrared receiving module. In the embodiment, the record-free identifier further includes a wireless receiving module, wherein the wireless transmission module is a radio frequency transmission module, and the wireless receiving module is a radio frequency receiving module. In one embodiment, the particular device is a car. In an embodiment, the image recognition module is a fingerprint identifier.
於貫細例中,5亥免鑰匙辨識器係為一可攜式免錄匙辨識器。 【實施方式J 清參考第1圖,第1圖為本創作免鑰匙辨識器1〇〇之一實施例 的功能方塊圖。於本實施例中,免餘匙辨識器罐係用以控制一 特疋衣置雜4置具有—鎖單元(lGekun_以鎖住該特定裝 置。免鑰匙辨識器100包含一影像辨識模組11〇、一免餘匙啟動模 8 M329579 組120以及一無線傳輸模組13〇。影像辨識模組11〇包含一影像輸 入單元112、一影像辨識處理單元114以及一儲存單元116,其中, 影像輸入單元112用來接收對應於一使用者之生物特徵之一影像 汛號SI1 ’儲存單元116係用來儲存對應於至少一特定使用者之生 物特徵之至少-預設資料PD卜而影像辨識處理單元114係編妾 於影像輸入單兀m與儲存單元116,用來將影像訊號SI1與儲存 於儲存單元116的預設資料PD1進行比對以輸出—第一控制訊號 SCI。免鑰起啟動模組12〇係耗接於影像辨識模組η。之影像辨識 處理單元114 ’用來接收第-控制訊號SC1,並根據第一控制訊號 sci來設定其開啟/關閉狀態(0n/0ffStatus)。無線傳輸模組⑽ 係耦接於免鑰匙啟動模組12G ’用來於匙啟動模組12()處於開 啟狀依據第-控制訊號sci傳送一無線控制訊號SW1至該 特定裝置’輪開該特定裝置上之鎖單元。其中,免鑰匙辨識^ 100係為-可攜式免齡韻H,可以讓制者隨身攜帶。 於-實施例中,該生物特徵係為指紋,而影像辨識模組110係 為-指紋辨顧(FingerPrinte〇,但僅為时說明本創作之例子 之一,而非本創作之限制條件。 請注意’上述的儲存單元116係可由一快閃記憶體⑽也In the example, the 5 Hai keyless identifier is a portable cardless identifier. [Embodiment J. Referring to Fig. 1, FIG. 1 is a functional block diagram of an embodiment of the creation of a keyless identifier 1. In the present embodiment, the free key identifier canister is used to control a special clothing compartment 4 with a lock unit (lGekun_ to lock the specific device. The keyless identifier 100 includes an image recognition module 11 The image recognition module 11 includes an image input unit 112, an image recognition processing unit 114, and a storage unit 116, wherein the image input is performed. The unit 112 is configured to receive one of the biometrics corresponding to a user. The image identifier SI1 'the storage unit 116 is configured to store at least a preset data PD corresponding to the biometric characteristics of at least one specific user, and the image recognition processing unit The 114 system is programmed in the image input unit 与m and the storage unit 116 for comparing the image signal SI1 with the preset data PD1 stored in the storage unit 116 for outputting the first control signal SCI. The image recognition processing unit 114' is configured to receive the first control signal SC1 and set its on/off state according to the first control signal sci (0n/0ffStatus). The wireless transmission module (10) is coupled to the keyless activation module 12G. The key activation module 12 is used to open the wireless control signal SW1 according to the first control signal sci to the specific device. The lock unit on the device, wherein the keyless identification system 100 is a portable eralessness H, which can be carried by the manufacturer. In the embodiment, the biometric feature is a fingerprint, and the image recognition module 110 It is a Fingerprinte (FingerPrinte〇, but only one of the examples of this creation, not the limitations of this creation. Please note that the above storage unit 116 can also be a flash memory (10)
Me,)來實施’但並硝限於此,村域它種類之儲縣置。 無線傳輸模組係為-紅外線(InfeedRayH#__i 頻傳輸模組’但财紐於此’亦可為其它種類之無線傳輸模組。 9 M329579 接下來,進-步說明$ i圖所示的免瑜匙辨識器]〇〇之各元件 如何運作。 於第一種情況下,首先,先將特定使用者A、B、c的生物特 徵指紋)的預設資料PD1存人儲存單元116中,假設使用 者A奴使用免鑰匙辨識器1〇〇來控制該特定裝置,則使用者A藉 由影像輪^單元112來輸人自己的驗並產細刪影像訊號曰 SI1匕接著’影像辨識處理單元U4將影像職SI1 (即使用者a 的指紋)與儲存單元116的每一預設資料pm (即特定使用者A、 B、C的指紋)進行比對,由於兩筆資料相吻合,影像辨識處理單 兀114會輸出第—控制訊號SC1以設定免鑰匙啟動模組⑽為開 啟狀’此時無線傳輸模組13〇會依據第一控制訊號奶將一無 線t制錢SW1發运出去,待該特定裝置接收到無線控制訊號 SW1後’使用者A便擁有權限來經由免錄匙辨識器则控制該特 定裝置。 於第一種情況下’如前所述’先將特定使用者A、B、C的生 物特徵(例如指紋)的預設資料PD1存入儲存單元116中,假設 使,者D欲使用免輪匙辨識器卿來控制該特定裝置,則使用者 = :ιΓ像:二早:112來輸入自己的指紋並產生相對應的影像 σ〜,者,影像辨識處理單元m將影像訊號SI1 (即使用 者d的指紋)與儲存 、丨仗用 母一預設資料PD1 (即特定使用 、a、文)進彳T比對’由於未有吻合資料,影像辨識處 10 M329579 ^理單70114會輸出第一控制訊號SCI以設定免餘匙啟動模組12〇 為關閉狀㉟此日守無線傳輸模組並不會將無線控制訊號撕i ‘發送出S,因此使用者D便無法透過免鑰匙辨識器1〇〇控制該特 •定裝置。 當然,為了提供更高的安全性,可以額外增加一些功能元件來 更進-步地改良免餘匙辨識器觸。請參考第2圖,第2圖為本創 • 作免鑰匙辨識器200之一實施例的功能方塊圖。免鑰匙辨識器200 與第1圖所示免鑰匙辨識器2〇〇類似,兩者不同之處在於免鑰匙 辨識器200另包含一偵測模組22〇,其係躺接於免鑰匙啟動模組 120,當免鑰匙啟動模組120係處於開啟狀態時,偵測模組22〇開 始偵測免鑰匙啟動模組120處於開啟狀態之一持續時間丁。 接下來,進一步說明第2圖所示的免鑰匙辨識器2〇〇之偵測模 _ 組220與其它元件之間如何運作。當影像辨識處理單元ιΐ4將影 像訊號SI1與儲存單元116的每一預設資料pm進行比對,比對 之後兩筆資料相吻合,影像辨識處理單元Π4便會輸出第一控制 •訊號SC1來設定免鑰匙啟動模組120為開啟狀態,此時偵測模組 220開始偵測免鑰匙啟動模組處於開啟狀態的持續時間丁,當 持續時間τ達到預定時間TP1時,偵測模組22〇會輸出第二控制 .虎SC2來設定免錄匙啟動才驗12〇為關閉狀態;若是持續時間 T仍在預定時間TP1内,偵測模組咖不會輸出第二控制訊號 SC2,免鑰匙啟動模組12〇繼續維持在開啟狀態下。 M329579 當然,可額外增加更多的功能元件來更進一步地改良免鑰匙辨 識器100、200,使其提供更高的安全性或者更多的功能,熟知此 項技藝者應可了解,在不違穌創作之精神τ,關於免錄匙辨識 器100、200之各種各樣的變化皆是可行的。 明參考第3圖’第3圖為本創作免錄匙辨識器31〇之另一實施 例的示意圖。免鑰匙辨識器31〇係用以控制一特定裝置32〇,特定 • 裝置320具有一無線接收模組330以及一控制模組340。免鑰匙辨 識器310係由第1圖所示的免鑰匙辨識器1〇〇來實施,只標示出 從外觀可以看到的元件,例如影像輸入單元112、無線傳輸模組 130以及些功此按鍵3i2、似,至於免餘起辨識器則其他的 内部元件請參考第!圖,於此不再_。於本實施财,特定裝 置32〇係為->飞車,無線接收模組33〇係甩來接收無線傳輸模組 丨顯傳送的無線控制訊號SW卜而控制模組34g則是絲依據 無線控制訊號SW1控制特定裝置32〇。 請注意,無線傳輸模組130係為一紅外線(infraredRay)傳輸 模組或-射頻傳輸模組,而無線接收模組33()係為—紅外線接收 模組或-麵接收做’織不·槪,村為其它種類之無 線傳輸模組、無線接收模組。 接下來’進一步說明第3圖所示的免鑰匙辨識H 310以及特定 裝置320之間如何運作。 12 M329579 • 於第一種情況下,使用者A(預定使用者之一)藉由影像輸入 單元112來輸入自己的指紋並產生相對應的影像訊號sn,接著, -内部的影像辨識處理單元1H(如第1圖所示)將影像訊號sn(即 -使用者A的指紋)與儲存單元116的每一預設資料pdi (即特定 使用者A、B、C的指紋)進行比對,由於兩筆資料相吻合,設定 免鑰匙啟動模組120為開啟狀態,此時無線傳輸模組13()會依據 第一控制訊號sci將一無線控制訊號SW1發送至特定裝置32〇 • 上,當無線接收模組330接收到無線傳輸模組130所傳送的無線 控制訊號SW1後,控制模組340便會依據無線控制訊號SW1去 解除特定裝置320 (汽車)的中控鎖350 (亦即上述之鎖單元), 此時使用者A便擁有權限來控制特定裝置32〇,舉例而言,使用 者A可自由進出車輛,或者使用者A坐入駕駛座便能發動汽車。 於另一實施例中,當使用者A將免鑰匙辨識器31〇攜帶進入車輛 後,免鑰匙啟動模組120可依據第一控制訊號SC1產生一第三控 • 制訊號,此時無線傳輸模組130會依據該第三控制訊號將一第二 無線控制訊號SW2發送至特定裝置320,待特定裝置32〇之無線 接收杈組330接收到第二無線控制訊號SW2後,控制模組34〇便 會依據第二無線控制訊號SW2去啟動汽車上之引擎。 一於第二種情況下,使用者0(非預定使用者)藉由影像輸入單 疋112來輸入自⑽指紋並產生相對應的影像訊號sn,接著,内 •部的影像辨識處理單元m (如第1圖所示)將影像訊號SI1 (即 • 使用者D的指紋)與儲存單元II6的每-預設資料PD1 (即特定 13 M329579 二2、B、c的指紋)進行比對,由於未有吻合 鑰匙啟動模組120為關 不啕刃口貝村,叹疋免 送任#i' 心^蚪無線傳輸模組130並不會發 會解除特定褒置320 (汽車)的作^1控制模組340不 控_裝置32。,_言,== 車防盜器發出警告聲響。 ",“t進人車内’或知 ^當考H特定裝置並不偈限於汽車,亦可為其它種類的裝置。 =^弟4圖,第4圖為本創作免鑰匙辨識器·之另一實施例 =不思圖。免鑰匙辨識器係用以控制一特定裝請,特定裝 _具有-無線接收模組以及—控制模組·。免鑰匙辨識 副與第3圖所示的免输匙辨識器31〇相同,亦是由第】圖的 辨識器刚來實施,為了簡潔起見,於此不在贅述。於本 貫幻中特疋裝置420係為-保險箱,無線接收模組43〇係用 來接收無線傳輸模組13〇所傳送的無線控制訊號剛,而控制模 組440則是用來依據無線控制訊號SW1控制特定裝置420。 假使-使用者的指紋與内建的預設資料PD1進行比對後,兩筆 貝料若相吻合,則設定聽匙啟賴組12G綱啟狀態,此時無 Ά傳輸模、、且13G會依據第—控制訊㉟[將—無線控制訊號 發达至特絲置42〇上,當無線接收模組接收到無線傳輸模 組130所傳送的無線控制訊號SW1後,控制模組44(Η更會依據無 線控制訊號swi去解除特定裝置420 (保險箱)的中控鎖45〇 (亦 14 M329579 p上述之鎖單元),此時該使用者便擁有權限來控制特定褒置 ’二是—使用者的指紋與内建的預S資料PD1並不吻合,則設 疋免餘心_組m為關離’鱗無線細驗⑽並不 靡则謂請,者自 當然,免鑰起辨識器310以及免鑰起辨識$ 41〇亦可由第2圖 _所科免鱗辨識器及其變形來實施,熟知此項技藝者應可° 了解,免鑰匙辨識器31G、41G之各種各樣的變化皆是可行的。 請注意’特定裝置並不舰於本創作所舉的實施例,亦可應用 於其他種類的特定裝置,例如飛機駕駛搶、住宅大門等。 適的貫施例僅用來說明本創作之技術特徵,並非用來 •限本創作之範蜂。文中所提到的特定裝置320、420可為一、、,車 者一保險箱,但僅為用來說明本創作之例子之一,而非本=乍: =條件,糊而言,特絲置柯驗料者住宅; • 一實施例中’該生物特徵係為指紋,而影像辨識模組1 係可由-快閃記憶體(FiashMemoly)來,存早70 h ,, 〜不只施,無線傳輸模組12 和線接收模組挪係由-紅外線接收模組.賴接收模組來 貫把’但亚™。此外,可額外增加更多的功能元件來更 M329579 進一步地改良免鑰匙辨識器100、200、310、410,使其提供更高 的安全性或者更多的功能,熟知此項技藝者應可了解,在不違背 ’ 本創作之精神下,關於免输匙辨識器100、200、310、410之各種 - 各樣的變化皆是可行的。 由上可知,本創作係提供一種免鑰匙辨識器,其係與一特定裝 置搭配使用。透過指紋辨識器或者其它類型的影像辨識模組,使 • 用者需要先通過認證才能使用免鑰匙辨識器來控制該特定裝置, 若是車主不小心遺失免鑰匙辨識器,也無需擔心別人可以輕易控 制該特定裝置,像是開走汽車、打開保險箱、或是打開住宅大門 等’使用者不但可以同時享受免鑰匙辨識器所帶來之便利,卻又 不必擔心財物受損或是安全等問題。 以上所述僅為本創作之較佳實施例,凡依本創作申請專利範 φ 圍所做之均等變化與修飾,皆應屬本創作之涵蓋範圍。 【圖式簡單說明】 ‘ 第1圖為本創作免鑰匙辨識器之一實施例的功能方塊圖。 第2圖為本創作免鑰匙辨識器之另一實施例的功能方塊圖。 、 第3圖為本創作免鑰匙辨識器之另一實施例的示意圖。 第4圖為本創作免鑰匙辨識器之另一實施例的示意圖。 16 M329579 【主要元件符號說明】 100、200、310、410 免鑰匙辨識器 110 影像辨識模組 120 免鑰匙啟動模組 130 無線傳輸模組 112 影像輸入單元 114 影像辨識處理單元 116 儲存單元 220 偵測模組 312、314 功能按鍵 320 > 420 特定裝置 330、430 無線接收模組 340、440 控制模組 350、450 中控鎖Me,) to implement 'but but limited to this, the village of its kind of storage county. The wireless transmission module is - Infrared (InfeedRayH#__i frequency transmission module 'but the money is here' can also be other types of wireless transmission modules. 9 M329579 Next, step-by-step instructions for the $ i diagram In the first case, first, the preset data PD1 of the biometric fingerprint of the specific user A, B, and c is stored in the storage unit 116, assuming The user A slave uses the keyless identifier 1 to control the specific device, and the user A inputs his own test by the image wheel unit 112 and produces a fine image signal 曰SI1匕 followed by an 'image recognition processing unit. U4 compares the image job SI1 (ie, the fingerprint of the user a) with each preset data pm of the storage unit 116 (ie, the fingerprints of the specific users A, B, and C), and the image recognition is consistent because the two data are matched. The processing unit 114 outputs the first control signal SC1 to set the keyless activation module (10) to be open. At this time, the wireless transmission module 13 will send a wireless t-making SW1 according to the first control signal, and wait for The specific device receives the wireless control signal S After W1, User A has the authority to control the specific device via the discretion identifier. In the first case, the pre-set data PD1 of the biometric features (for example, fingerprints) of the specific users A, B, and C are first stored in the storage unit 116 as described above, assuming that the person D wants to use the free wheel. The key identifier is used to control the specific device, and the user = : ιΓ image: two early: 112 to input his fingerprint and generate a corresponding image σ~, the image recognition processing unit m will use the image signal SI1 (ie, use The fingerprint of d is stored and the parent data is a preset data PD1 (ie, specific use, a, text) and 彳T is compared. 'Because there is no matching data, the image recognition section 10 M329579 ^理单70114 will output the first A control signal SCI is used to set the free key activation module 12 to be in a closed state. The day-to-day wireless transmission module does not send the wireless control signal to the 'S, so the user D cannot pass the keyless identifier. 1〇〇 Control the special device. Of course, in order to provide greater security, additional functional components can be added to further improve the free-key identifier. Please refer to FIG. 2, which is a functional block diagram of an embodiment of the keyless identifier 200. The keyless identifier 200 is similar to the keyless identifier 2〇〇 shown in FIG. 1 . The difference is that the keyless identifier 200 further includes a detecting module 22 , which is attached to the keyless starting mode. In the group 120, when the keyless activation module 120 is in the on state, the detection module 22 starts detecting that the keyless activation module 120 is in an on state for a duration of time. Next, how the operation between the detection mode group 220 of the keyless identifier 2 shown in FIG. 2 and other components will be further explained. When the image recognition processing unit ι4 compares the image signal SI1 with each preset data pm of the storage unit 116, and the two data are matched after the comparison, the image recognition processing unit Π4 outputs the first control signal SC1 to set The keyless activation module 120 is in an on state. At this time, the detection module 220 starts detecting the duration of the keyless activation module being turned on. When the duration τ reaches the predetermined time TP1, the detection module 22 will Output second control. Tiger SC2 to set the keyless start to check 12〇 is off state; if the duration T is still within the predetermined time TP1, the detection module will not output the second control signal SC2, the keyless start mode Group 12 continues to remain open. M329579 Of course, additional functional components can be added to further improve the keyless identifiers 100, 200 to provide higher security or more functions. Those skilled in the art should understand that it does not violate The spirit of creation, τ, is applicable to all kinds of changes to the keyless identifiers 100 and 200. Referring to Figure 3, FIG. 3 is a schematic diagram of another embodiment of the creation-free key identifier 31. The keyless identifier 31 is used to control a specific device 32. The specific device 320 has a wireless receiving module 330 and a control module 340. The keyless identifier 310 is implemented by the keyless identifier 1 shown in FIG. 1 and only identifies components that can be seen from the appearance, such as the image input unit 112, the wireless transmission module 130, and some of the keys. 3i2, like, as for the remaining identifiers, please refer to the other internal components! Figure, no longer _. In this implementation, the specific device 32 is -> the speed, the wireless receiving module 33 is configured to receive the wireless control signal SW transmitted by the wireless transmission module, and the control module 34g is based on the wireless The control signal SW1 controls the specific device 32A. Please note that the wireless transmission module 130 is an infrared (infrared Ray) transmission module or an RF transmission module, and the wireless receiving module 33 () is an infrared receiving module or a surface receiving device. The village is another type of wireless transmission module and wireless receiving module. Next, the operation between the keyless identification H 310 and the specific device 320 shown in Fig. 3 will be further explained. 12 M329579 • In the first case, the user A (one of the predetermined users) inputs his/her own fingerprint by the image input unit 112 and generates a corresponding image signal sn, and then, the internal image recognition processing unit 1H (As shown in FIG. 1 ), the image signal sn (ie, the fingerprint of the user A) is compared with each preset data pdi of the storage unit 116 (ie, the fingerprints of the specific users A, B, and C), because The two pieces of data are matched, and the keyless activation module 120 is set to be in an open state. At this time, the wireless transmission module 13() transmits a wireless control signal SW1 to the specific device 32〇 according to the first control signal sci. After receiving the wireless control signal SW1 transmitted by the wireless transmission module 130, the control module 340 will release the central locking 350 of the specific device 320 (the car) according to the wireless control signal SW1 (that is, the above lock) Unit), at this time user A has the authority to control the specific device 32. For example, user A can enter and exit the vehicle freely, or user A can drive the car when sitting in the driver's seat. In another embodiment, after the user A carries the keyless identifier 31 into the vehicle, the keyless activation module 120 can generate a third control signal according to the first control signal SC1. The group 130 sends a second wireless control signal SW2 to the specific device 320 according to the third control signal. After the wireless receiving unit 330 of the specific device 32 receives the second wireless control signal SW2, the control module 34 squats. The engine on the car is activated according to the second wireless control signal SW2. In the second case, the user 0 (unscheduled user) inputs the fingerprint from the (10) fingerprint by the image input unit 112 and generates a corresponding image signal sn, and then the image recognition processing unit m of the internal portion ( As shown in Figure 1, the image signal SI1 (ie, the fingerprint of user D) is compared with each preset data PD1 of the storage unit II6 (ie, the fingerprint of the specific 13 M329579 2 2, B, c), There is no matching key activation module 120 for the door to the edge of the village, the sigh is not allowed to send #i' heart ^ 蚪 wireless transmission module 130 will not issue a specific device 320 (car) ^1 The control module 340 does not control the device 32. , _言, == The car alarm sounded a warning. ", "t into the car inside" or know that the specific device is not limited to cars, but also for other types of devices. = ^ brother 4 map, the fourth picture is the creation of the keyless identifier An embodiment = no picture. The keyless identifier is used to control a specific device, the specific device has a wireless receiving module and a control module. The keyless identification pair and the free input shown in Figure 3 The key identifier 31 is the same, and is also implemented by the recognizer of the first figure. For the sake of brevity, it will not be described here. In the present embodiment, the special device 420 is a safe, a wireless receiving module 43〇 The system is configured to receive the wireless control signal transmitted by the wireless transmission module 13B, and the control module 440 is configured to control the specific device 420 according to the wireless control signal SW1. If the user's fingerprint and the built-in preset data After the PD1 is compared, if the two pens are matched, the 12G mode of the listening key set is set, and the mode is not transmitted at this time, and the 13G will be based on the first control signal 35 [will be - wireless control signal Up to 42 inches on the wire, when the wireless receiver module receives the wireless transmission mode After the wireless control signal SW1 transmitted by the control unit 44, the control module 44 (based on the wireless control signal swi), the central control lock 45 of the specific device 420 (safety box) is released (also 14 M329579 p above the lock unit). The user has the authority to control the specific device 'two yes' - the user's fingerprint does not match the built-in pre-S data PD1, then set the 余 余 _ group m to turn off the 'scale wireless test (10) and If you don't, then you can, of course, the key-free identifier 310 and the key-free identification $41〇 can also be implemented by Figure 2, the scale-free identifier and its deformation, and those skilled in the art should be able to It is understood that various changes of the keyless identifiers 31G, 41G are feasible. Please note that 'specific devices are not used in the embodiments of the present invention, but can also be applied to other types of specific devices, such as aircraft driving. Grab, residential gates, etc. Appropriate examples are only used to illustrate the technical characteristics of this creation, not to limit the creation of the bee. The specific devices 320, 420 mentioned in the article can be one,,,,, a safe, but only an example to illustrate this creation One, not the present = 乍: = condition, in terms of paste, the wire is placed in the home of the sampler; • In one embodiment, the biological feature is a fingerprint, and the image recognition module 1 is a flash memory. The body (FiashMemoly) comes, saves 70 hours early, ~ not only the application, the wireless transmission module 12 and the line receiving module are controlled by the - infrared receiving module. The receiving module is used to "but the AsiaTM. In addition, Adding more functional components to the M329579 further improves the keyless identifiers 100, 200, 310, 410 to provide greater security or more functionality, which is well known to those skilled in the art. In the spirit of this creation, various changes to the keyless identifiers 100, 200, 310, 410 are possible. As can be seen from the above, the present invention provides a keyless identifier that is used in conjunction with a particular device. Through the fingerprint reader or other types of image recognition modules, the user needs to be authenticated before using the keyless identifier to control the specific device. If the owner accidentally loses the keyless identifier, there is no need to worry that others can easily control it. This particular device, such as driving a car, opening a safe, or opening a door to a home, can not only enjoy the convenience of a keyless identifier, but also worry about damage or security. The above descriptions are only preferred embodiments of the present invention, and all changes and modifications made in accordance with the patent application scope of this creation should be covered by this creation. [Simple description of the drawing] ‘The first figure is a functional block diagram of an embodiment of the creative keyless identifier. Figure 2 is a functional block diagram of another embodiment of the creative keyless recognizer. Figure 3 is a schematic diagram of another embodiment of the creative keyless identifier. Figure 4 is a schematic diagram of another embodiment of the creative keyless recognizer. 16 M329579 [Key component symbol description] 100, 200, 310, 410 Keyless identifier 110 Image recognition module 120 Keyless activation module 130 Wireless transmission module 112 Image input unit 114 Image recognition processing unit 116 Storage unit 220 Detection Module 312, 314 function button 320 > 420 specific device 330, 430 wireless receiving module 340, 440 control module 350, 450 central locking