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在mems lidar這個產品中,有6篇Facebook貼文,粉絲數超過1萬的網紅竹科大小事,也在其Facebook貼文中提到, 🤩大尺寸、高耐震度、全溫操作🏎 來達科技第一代微機電光學微鏡進軍市場💪💪💪 🏢位於新竹科學園區內專注於光學微鏡模組研發的新創公司-來達科技股份有限公司(Compertum Microsystems Inc.,下稱來達科技),成功推出用於光達感測器(Light Detection and Rang...

mems lidar 在 竹科大小事 Facebook 的最讚貼文

竹科大小事 By 竹科大小事

2021-06-21 14:19:11 有 26 人按讚
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🤩大尺寸、高耐震度、全溫操作🏎
來達科技第一代微機電光學微鏡進軍市場💪💪💪

🏢位於新竹科學園區內專注於光學微鏡模組研發的新創公司-來達科技股份有限公司(Compertum Microsystems Inc.,下稱來達科技),成功推出用於光達感測器(Light Detection and Ranging, LiDAR)的雙軸微機電(2D-MEMS)光學微鏡-M21K1👏👏👏。相較目前市場上的光學微鏡,這項產品具備👐大尺寸(短軸4mm*長軸5.6mm)、😇優秀耐震能力(衝擊試驗>200G)及可🕹全溫範圍操作(溫度範圍-40°C~85°C)等特性,可提升微機電微鏡車用光達感測器的穩定度,並廣泛應用於自駕車、無人機、工業用機器人及地圖製作等產業。

✨光達感測器一般可區分為傳統機械式、混合固態式及純固態式三種,市場上普遍認為混合固態式光達最有可能及時商用;而混合固態式光達所用的光束轉向元件,又分稜鏡式以及微機電微鏡式兩種,但實質應用上稜鏡式會有偵頻數不高的缺點,而微機電微鏡式則在尺寸、耐震度及全溫操作等方面為市場所詬病。

⚙️來達科技本次開發的雙軸微機電光學微鏡(M21K1),則解決市場上的痛點,提供最佳解決方案👍👍👍。其具有在相同視場角要求下,尺寸遠大於美日大廠的競爭產品,且沒有X-Y軸互相干擾問題;在全溫操作下,共振頻飄移僅小於3%👏👏👏,在實際應用上即使有溫度和環境的變異,M21K1因具有特殊轉角回饋機制可及時監測及控制微鏡的轉軸角,可達到光束轉向的穩定輸出。再則,因生產的可製造性高,預期來達科技的M21K1在成本上會相當具有競爭力。🥰

⭐️來達科技自2020年1月進駐新竹科學園區後,有效組建包含光學、機械、電子、微機電等背景的工程團隊,利用科學園區充沛的半導體供應鏈及創辦人的人脈,快速推出可商用的微機電光學微鏡樣品。來達科技總經理劉建昌博士表示,竹科的創業環境以及臺灣豐沛的人才庫,得以讓來達科技在最短的時間裡,解決業界長期想發展低成本、高性價比光達感測器的技術難點,來達科技的M21K1產品可提供回饋信號,能明確知悉微鏡的及時位置,進而減低點雲的計算誤差,從而幫助光達系統商獲取所需的系統參數。

🌈目前來達科技除可提供雙軸、單軸微鏡外,亦可協助客戶進行客製化,目前已在市場上提供微機電微鏡工程樣片及相關驅動程式予光達系統商,系統商將可利用來達科技所提供的元件整合到光達系統中,讓低成本、可靠性高的自駕技術快速普及。🤩

(圖為來達科技微機電光學微鏡:M21K1)

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民國69年12月15日新竹科學園區經國家政策推動正式成立,科技部新竹科學園區管理局(以下簡稱竹科管理局)在科技部的領導下負責新竹科學園區開發、營運與管理,涵蓋新竹園區、竹南園區、龍潭園區、銅鑼園區、宜蘭園區和新竹生物醫學園區6個園區約1,375公頃。主要任務與目標在引進高級技術產業及科學技術人才,提升區域創新整合能量,以激勵國內產業技術之研究創新,並促進高級技術之產業發展。   竹科管理局設立企劃、投資、環安、工商、營建 、建管6個組及秘書、人事、主計、政風4個室,為園區廠商建設優質基礎建設、提供單一窗口服務、創新研發機制及產學研合作機制。竹科發展迄今的成功經驗,已成為許多國家發展科學園區爭相學習的典範,群聚於竹科的半導體產業,擁有晶圓代工、設計、光罩、封裝及測試等完整垂直分工體系,不僅創造多項世界第一的產品,更被譽為「臺灣的矽谷」。其璀璨的成功經驗,先後傳承設立南部及中部科學園區,為臺灣建構完整的點、線、面西部高科技走廊,驅動國內上、中、下游產業的蓬勃發展。未來竹科管理局將秉持便民、效率、忠誠與廉能的核心價值,以專業、效率、主動為民服務的精神,為園區廠商積極建置優質的投資環境,協助高科技廠商結合學研資源發揮高效能研發能量,培育優秀科技人才,激勵創新國內研發實力,祈願促成科學園區永續發展成為全球最佳的「創新產業聚落」。
竹科大小事是科技部新竹科學園區管理局所設立的,提供管理局與民眾或園區廠商互動/分享/溝通 竹科大小事之管道,亦希望粉絲朋友們,記得要常至本專區參與及互動,熱絡粉絲專頁。
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mems lidar 在 COMPOTECHAsia電子與電腦 - 陸克文化 Facebook 的精選貼文

COMPOTECHAsia電子與電腦 - 陸克文化 By COMPOTECHAsia電子與電腦 - 陸克文化

2020-05-29 14:30:01 有 77 人按讚
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#汽車電子 #自駕車 #人工智慧AI #先進駕駛輔助系統ADAS #光達LiDAR

【光達,要不要?】

真正的大商機,總是發生在每一次的產業變革之後!行規的異動、技術的創新、社會的變遷……,都是新一輪競賽的號角。自駕車也是如此。

現階段——至少在車聯網 (V2X) 建置完善且可信任之前,要達到 L4 或 L5 自駕層級,感測器融合 (Sensors Fusion) 仍是普遍共識——光達 (LiDAR) 強在可「鳥瞰」全景、創建即時 3D 地圖,雷達 (Radar) 擅於應對雨雪霧霾惡劣天氣,尤須相輔相成。

然而,體積大、難以無損美觀地融入車體且成本高達 1 萬美元,是傳統機械旋轉光達最被詬病之處。為此,借助半導體與光電技術取代馬達驅動的 3D 固態光達 (Solid-state LiDAR) 便應聲而起,有光學相控陣 (OPA) 與閃光 (Flash) 兩種方式;雖有部件成本低的優勢,但亦有三大軟肋。於是,取巧以在鏡面內部置入微機電 (MEMS) 改變光線射出角度以實現掃描的「混合固態光達」(Mixed Solid-state LiDAR),遂成折衷方案。

這是因為 OPA 產生的光束發散性更大,更難兼顧長距離、高解析度和寬視場;Flash 每次發射的光線會散佈整個視場,只有一小部分雷射能投射到某些特定點。隨著技術演進,機械與固態逐漸走向整合;但即使是 MEMS 微型掃描鏡,由於投射的雷射量有限,也有難以探測遠處物體的缺憾;且光電探測器陣列的每個像素都非常小,又限制了可捕捉的反射光量。所幸,只要加大 MEMS 反射鏡直徑、使用大面積反射鏡將大部分入射光引導到光電感測器上,就能拉大視場 (FoV)、檢測遠處物體。

一場疫病,加速了自駕車產業的演進與淘汰~~~有興趣搶食大餅者,一定不能錯過這篇深入探討的報導。

延伸閱讀:
《開發自駕系統,一定要知道的事!》
http://compotechasia.com/a/feature/2020/0513/44706.html

#特斯拉Tesla #VelodyneLidar #EasyMile #Quanergy #Ouster #三菱電機MitsubishiElectric #美信Maxim #MAX40026 #MAX40660 #MAX40661 #Luminar #博世Bosch #Waymo #高通Qualcomm #SnapdragonRide #麻省理工學院MIT #VISTA虛擬圖像自動合成與轉化模擬系統

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2002年,憑藉獨特敏銳度察覺到電子業界需求,《COMPOTECHAsia電子與電腦》於中國大陸取得《COMPOTECHChina》月刊發行權,為初到海外發展及當地讀者出具最具前瞻性且中肯的觀察,具有相當影響力,也成為一流國際大廠競相展示研發心血的首選。 2006年,有鑑於網路環境日趨成熟,《COMPOTECHAsia電子與電腦》再度領先同業,首創線上視頻平台CTOV (COMPOTECH Online Video)。自此,成為整合紙本、網站、電子報及線上視頻的全方位媒體。 2016年,為貫徹市場應用及開發技術的連結並擴大群眾基礎,陸續展開 Facebook、Twitter、LinkedIn 等社群平台經營。 「就市論勢、就勢論市」是我們的信念。我們將於每週一、三、五下午在 FB 分享生活中隨處可見的科普知識,以平易近人的方式,用不一樣的角度觀察市場趨勢和技術走向,並不定時穿插轉載網路精彩佳作或趣聞。記得設為「搶先看」哦! “COMPOTECHAsia/ China” issue on 8th monthly. It is the dependent media which focuses on electronic industry situation, end user market, and technology trend. The monthly magazine has become the main channel to get professional information for engineers, purchaser, R&D employees and decision-making management. We perceived the demand of electronic industry and strive to get the distribution rights of “China Edition” in Mainland China in 2002. It gives a lot of prospective and proper observation for the overseas workers and local readers. Gradually, COMPOTECH is getting to be the powerful. Nowadays, COMPOTECH is the first-choice platform for the first-class firms to display their R&D results. Furthermore, in 2006, we were ahead of our competitors to build the CTOV platform (COMPOTECH Online Video) due to the mature internet environment. Since then, COMPOTECH has become the integrated media. For having a thorough knowledge of market applications and technology migration, as well as expanding the base of the masses, we begin to manage the Facebook, Twitter and LinkedIn etc. in 2016.
智能系統設計/應用工程師、產品/專案開發主管、元器件/零組件/準系統採購者的交流園地,於每週一、三、五下午分享【科技應用取向】的趨勢議題。
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mems lidar 在 台灣物聯網實驗室 IOT Labs Facebook 的最讚貼文

台灣物聯網實驗室 IOT Labs By 台灣物聯網實驗室 IOT Labs

2019-11-03 16:11:46 有 3 人按讚
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異質晶片整合 半導體中心助攻台廠搶AI及智慧感測商機

2019/10/31 廣編企劃

評論

為推動科技產業升級,財團法人國家實驗研究院致力於推動國內科技人才培育及創新研發,近年除與學術界積極合作,提供平台解決方案以外,也積極協助產業界新創及新產品開發,希望作為學研與產業間的技術整合平台,以發揮高效的槓桿作用,創造共生共榮的各領域生態系。10月7日齊集台灣半導體研究中心、國家高速網路與計算中心、台灣儀器科技研究中心共同展出智慧領域技術成果,會中吸引廣大業界與學界共襄盛舉,希冀藉由這樣的機會,讓更多產學研界能認識國研院在研發平台服務所做的努力,並見證近年國研院引領的技術革新。

5G及物聯網時代來臨,從工業領域的自動化生產機台,到3C消費領域的穿戴式裝置,都須要核心的晶片模組;然而不同的應用,也有不同的晶片設計須求,規格可說是千萬種。對於想要搶攻物聯網商機的大小企業和新創廠商來說,最大的挑戰就在於是否擁有晶片自主能量。例如研發工業用機器手臂的製造商,若能快速取得性能優異且有效整合電源、感測、記憶等多項功能的晶片模組,就能降低成本、縮短開發時間、優先進入市場。又如穿戴裝置,內部各自獨立的處理器、感測器、電路IC等,若能充分整合成更有效率的晶片單元,就能縮小穿戴裝置的體積,提高運作效能。

異質整合研發有成 助攻國內產學界搶物聯網商機

國研院旗下的台灣半導體研究中心,在「產業趨勢論壇暨國研院智慧領域」的活動發表歷經了多年研發,在「異質晶片整合」技術取得重大進展。不論是工業用大電流的電路IP晶片組、或是低耗電物聯網裝置的智慧感測晶片、甚至連深度學習、機器學習所需的AI運算晶片,產學界都能運用台灣半導體研究中心所開發出的異質晶片整合平台,來降低開發門檻,讓業者沒有後顧之憂,全力衝刺市場。

半導體研究中心副主任莊英宗指出,半導體產業目前最熱門的趨勢是如何將不同材料整合為元件;這主要是因應物聯網時代包括電競、智慧家庭、無人載具、智慧城市等各種裝置,都有「異質運算核心」的需求。例如穿戴裝置愈來愈強調各種各樣的「感測」及「邊緣運算」,因此必須整合類比感測晶片與數位運算晶片;又如電路IP日益複雜,也須整合節能、電流、感測等多樣功能。

物聯網應用百花齊放 自主晶片能量才能搶得先機

莊英宗表示,「『物聯網』喊了很多年,過去未能大規模地實現,原因之一就是必須達成異質晶片的整合,才能降低物聯網裝置的開發成本及時程。」有別於過去的通用型晶片,未來AI、物聯網應用百花齊放,開發各式創新應用的小型企業,更須要的是符合自身需求的客製化晶片,然而學術單位或企業缺乏基礎研究與產品整合的驗證環境,自主開發晶片可說難上加難。這也是為什麼台灣半導體研究中心耗費五、六年的時間,研發出不同應用領域的異質晶片整合平台,來滿足產學界即將爆發的需求。

以智慧感測晶片為例,原本感測單元、電路單元、記憶體單元、以及處理單元各自獨立,全都放入穿戴裝置內,將導致體積過大,不符實用。半導體中心提供的異質整合設計架構,可將所有單元有效整合,並已有成功設計案例;換言之,智慧手錶、生醫穿戴裝置、AR/VR裝置的開發廠商,只要採用這個異質整合架構,再加上自己的創意,就能快速開發出自有晶片。這也符合時下正夯的客製化ASIC(特殊應用積體電路)晶片概念。

從穿戴裝置到無人工廠 晶片整合需求大不同

過去行動通訊主要鎖定消費端,不過未來物聯網的創新應用,有很大一部分將在工業領域實現,例如工廠自動化、工業4.0等等。因此除了低功耗、小電流的穿戴裝置,台灣半導體研究中心也研發出大電流、高電壓所需的異質晶片設計平台,可廣泛應用於機器手臂、CNC自動生產機台、晶圓定位平台、甚至無人工廠等等工業場景。這對於擅長製造業的台灣而言,可說是既充滿商機又能實現產業的轉型升級。

舉例來說,工業馬達內部的構造主要包括電源管理晶片、控制器、驅動IC等等;在以往,馬達的電源控制只須要兩條線,一進一出,但如今愈新型的馬達,效率愈高,所需接收的訊號也更為多元,勢必須要更複雜的控制電路;另一方面,節能的要求與日俱增,也必須在電源IC週邊加裝更多顆IC來符合綠能安規、進行斷路保護等。此外,生產線上的無人檢測、品管、預防性維修等,都會用到感測系統,更增添業者在整合上的難度,此時就很適合運用半導體中心的工業用異質晶片整合架構來進行突破。

自主微感測系統晶片 是台灣創新的關鍵

台灣半導體研究中心謝嘉民副主任表示,台灣發展IoT相關創新,自主微感測系統晶片是重大關鍵,它必須能涵蓋光、機感測器以及電路IP等不同屬性的IC及元件;不過因為前期研發投資大、驗證周期長,且應用情境太廣泛,一般廠商跨入不易。謝嘉民指出台灣半導體研究中心的異質系統整合平台,台灣半導體研究中心的異質系統整合平台,有兩大特色:一是盡量減少傳統的封裝,在IC層面進行整合;二是結合不同材料,將新式的感測用類比IC,建立國內產學研領域的系統級封裝研究生態圈,如提供微機電(MEMS)、感測器(Sensor)的半導體製造技術,並結合2.5D/3D先進超薄化封裝技術的驗證製造環境,以發展人體感測、工業訊號感測、甚至光達(LiDar)感測等應用,協助學界優秀的研究重果與業界生產技術接軌,提供國內發展微型化、行動裝置與物聯網相關解決方案。

在成果發表的同一天,半導體中心也開放AI系統開發實驗室,供論壇與會者參觀。物聯網時代著重資料的運算分析,AI已成為不可或缺的解決方案;然而許多學術單位和新創公司,比較擅長軟體面,例如機器學習、深度學習等演算法或模型的開發;對於運算IC的硬體設計較為陌生。有鑑於此,半導體中心的AI系統開發架構也提供產學界使用,資源不足的小型單位,也可輕鬆發展出AI SoC(人工智慧系統單晶片)解決方案。

半導體中心設計服務組蔡維昌組長補充,半導體中心提供的AI SoC設計平台,主要有兩大特點,一是提供客製化解決方案,可設計不同的應用需求的系統晶片,不必侷限市面上現成的通用AI SoC晶片;二是將AI SoC所需的的矽智產(IP)備妥並整合成晶片系統,學界或新創只須專注AI加速電路,大大簡化IC硬體的開發過程。

舉例來說,大學實驗室在開發手機人臉辨識的AI模型或演算法時,需要IC硬體來進行運算,不過手機的人臉辨識解鎖,講求快速、低功耗等特性,所需的加速電路必須客製化,市面上的通用AI晶片無法滿足需求,加上設計一顆AI SoC需包括CPU、記憶體、輸入輸出週邊元件、匯流排、加速電路等各項元件等,而實驗室師生又沒有足夠的資源自行開發整顆AI SoC晶片,便形成研發瓶頸。

此時半導體中心不僅提供AI SoC設計平台,還有相關的EDA設計軟體和訓練課程,AI開發者只要專注不同推論的加速電路設計,將之套用於設計平台,即可完成AI系統單晶片的開發。也就是說,學校實驗室或新創,透過這個設計平台,能夠快速驗證AI構想,縮短開發時程。除了手機之外,包括穿戴裝置的即時翻譯、生醫檢測儀等,都有低功耗、快速產出的特性,也很適合採用半導體中心的AI SoC設計平台。

發揮槓桿作用 促進產學整合 創造台灣科技業契機

莊英宗指出,「台灣半導體研究中心將自己定位為『新元件』、『新整合』、『新應用』的創意基地,努力解決產業界及學術界所面臨的問題。」藉由提供前瞻異質整合的共通平台,讓業者能輕易利用晶片設計環境、實作及封裝平台、取得客製化IP開發、驗證等各種服務。「我們的使命是發揮槓桿作用,將先進研發成果提供產業界及學術界運用,替台灣的科技業創造更多契機。」

附圖:對於想要搶攻5G及物聯網商機的大小企業和新創廠商來說,最大的挑戰就在於是否擁有晶片自主能量。
Photo Credit : 國研院
圖2
歷經多年研發,台灣半導體研究中心開發出的異質晶片整合平台,能針對感測類比晶片、運算數位晶片、電路IP進行高效能的整合。(Photo Credit : 國研院)
台灣半導體研究中心針對工業用電路IP系統進行異質整合。(Photo Credit : 國研院)
圖4
台灣半導體研究中心推出的AI SoC設計平台,讓學術界及新創業者,也能輕鬆開發出AI晶片。(Photo Credit : 國研院)

資料來源:https://www.inside.com.tw/article/17949-narlabs-tsri

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本專頁將不定時網羅搜集國內外與物聯網相關新聞及技術,並無條件與 IOT 從業人員或對物聯網有興趣的大眾分享,若有任何不足或建議之處,歡迎隨時留言,一起研究研究。^.^
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mems lidar 在 BerensRWU/MEMS-LiDAR-Generator - GitHub 的推薦與評價

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#4. SLAM LiDAR - 中光電智能感測

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#5. Micro Mirrors Expand Field of View in Intel's New MEMs ...

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#6. MEMS lidar for MEMS scanning solutions - Maradin

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#7. At the heart of sensors – MEMS technology for LiDAR - Blickfeld

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#10. 1D MEMS Micro-Scanning LiDAR - UPV

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#11. Control of MEMS lidar mirrors enables steady pictures ... - SPIE

“The MEMS controller reduces the influences of innate vibrations with automotive lidars and maintains stable 3D images, enabling reliable ...

#12. Fast Angle Adaption of a MEMS-based LiDAR System

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#13. MEMS-based lidar for autonomous driving - ResearchGate

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#14. MEMS Mirrors for LiDAR: A review - ResearchGate

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#15. A large-scale microelectromechanical-systems-based silicon ...

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#16. Design and Realization of Wide Field-of-View 3D MEMS LiDAR

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#17. MEMS scanning mirror claims LiDAR breakthrough

The rugged, high-vibration MEMS scanning mirror for LiDAR claims to outperform older solutions like voice coils, spinning polygons and ...

#18. Evaluation of robustness against external vibrations for long ...

The resonant MEMS mirror used in the lidar is a variant of the MEMS mirrors in Refs. 9, 16, and 24. The MEMS mirror has an elliptical shape with ...

#19. MEMS LiDAR Global Market Report 2022 - GlobeNewswire

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#20. Generation of synthetic Point Clouds for MEMS LiDAR Sensor

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#21. 3D LiDAR – SyMPL - Mirrorcle Technologies Inc.

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#22. MEMS LiDAR - LS LiDAR

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#25. MEMS 1x5,1x6 PM Fiber Optical LiDAR Switch - Agiltron Inc.

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#26. Solid-state lidar using MEMS mirror ICs - Electronics360

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#27. MEMS Enables Efficient Optical Design for LiDAR Sensors

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#28. MEMS 3D LiDAR Artemis I-80 - FindLight

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#29. Omnitron's MEMS scanning mirror improves LiDAR

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#30. 深圳市速腾聚创科技有限公司

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#32. How MEMS Mirrors can make LiDAR Economical - Electropages

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#45. High Resolution MEMS LiDAR Paper in Nature Magazine

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#46. MEMS Mirrors Reduce Lidar Power Requirements - In the Scan

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#48. [2003.09545] Towards a MEMS-based Adaptive LIDAR - arXiv

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#49. 微機電解決方案加速LiDAR市場成長 - 工商時報

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#50. Not all MEMS are Created Equal. AEye's innovative ... - Medium

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#51. RoboSense teams up with Webasto on smart roof module with ...

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#52. 來達科技台灣第一微機電光達明年先攻智慧交通 - 聯合報

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#53. LiDAR: How MEMS is enabling the new trend in spatial sensing

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#54. 微機電系統與感測元件封裝| 日月光 - ASE

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#55. Generic MEMS 3D lidar | SensorSDK | 2.0.5 - Unity - Manual

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#56. BerensRWU/MEMS-LiDAR-Generator - GitHub

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#57. 宽视场3D MEMS LiDAR的设计与实现 - X-MOL

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#60. UKF-based MEMS micromirror angle estimation for LiDAR

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#62. MEMS and Micromachines of Guiding Light - Possibility Hub

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#63. 驗證各種激光雷達掃描方法 - nidec copal electronics

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#64. CTIMES/SmartAuto - MEMS解決方案加速汽車LiDAR市場成長

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#66. MicroVision on course with development of MEMS long-range ...

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#67. Comparison of MEMS mirror LiDAR architectures - NASA/ADS

Beam scanning-based LiDAR architectures have a significant advantage as the full ... We present a hybrid architecture, Synchronized MEMS Pair LiDAR (SyMPL), ...

#68. BMW selects Innoviz solid-state MEMS lidar for production ...

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#69. Pioneer Starts Mass Production of Solid-State 3D-LiDAR ...

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#70. Vehicle Targets Recognition Algorithm Based on MEMS Lidar

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#71. micromachines Review MEMS Mirrors for LiDAR - Studocu

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#72. MEMS Optical Phased Array for LIDAR

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#73. Mitsubishi Electric Develops MEMS LiDAR ... - LEDinside

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#78. New LiDAR Sensors Use MEMS Technology - Surveying Group

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#79. Control of MEMS lidar mirrors enables steady pictures in ...

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#80. Mitsubishi MEMS LiDAR increases accuracy - IoT M2M Council

The new LiDAR system irradiates objects by laser and uses a dual-axis (horizontal and vertical) MEMS mirror to scan for the reflected light, ...

#81. Innoviz Launches New 360 Degree Lidar Sensor - Forbes

Sensors like those developed by Innoviz use a microscopic MEMS mirror mechanism produced on a chip to steer a single laser beam as it scans back ...

#82. LiDAR, MEMS maker collab with Mobiletron seeks solutions in ...

LOTES Investments' investments in Compertum Microsystems Inc. and invested in the development of LiDAR and MEMS micromirror products, ...

#83. ST微鏡掃描技術獲英特爾LiDAR深度鏡頭採用 - EDN Taiwan

在Intel RealSense LiDAR鏡頭L515中,ST小體積的微鏡為LiDAR鏡頭做到 ... 藉由ST MEMS的掃描功能,L515無需插值像素就能提供高解析度的深度圖和可控 ...

#84. Mitsubishi Electric introduces MEMS LiDAR solution for ...

Mitsubishi Electric Corporation has developed a compact light-detection and ranging (LiDAR) solution incorporating a micro-electromechanical ...

#85. MicroVision to ship small consumer MEMS lidar

For a technology once most popular as a survey tool lidar has certainly seen a great expansion of its use cases in the last handful of years ...

#86. Blickfeld's Long-Range MEMS Lidar - DVN

German sensor developer Blickfeld have launched a new a MEMS-based solid-state lidar for the detection of objects up to 250 metres away.

#87. MEMS Lidar for Driverless Vehicles Takes Another Big Step

Alibaba builds MEMS Lidars into a Driverless Courier Vehicle. by Steven Leibson ... Limitations of RoboSense's initial MEMS Lidar.

#88. Intel Realsense L515 MEMS-Based Solid-State LiDAR Camera

A high-resolution LiDAR sensor featuring a bi-axial MEMS mirror scanner associated with an infrared laser and a RGB camera.

#89. MEMS-based lidar for autonomous driving

Recent work has focused on MEMS scanning mirrors as a potential solution for affordable long range lidar systems. This paper discusses current ...

#90. LiDAR 3 MEMS激光雷达 - CSDN博客

与机械雷达相比,MEMS (Micro-Electro-Mechanical Systems) 激光雷达使用微型的MEMS mirror反射光线,用微机电执行器代替电机,有些厂商也称MEMS激光 ...

#91. Draper Unveils LiDAR with MEMS Beamsteering Technology ...

CAMBRIDGE, MA—LiDAR, short for light detection and ranging, is often considered the primary sensor for self-driving cars, given its ability ...

#92. Towards a MEMS-based Adaptive LIDAR - Francesco Pittaluga

Adaptive LIDAR Design -- We have designed a flexible MEMS mirror-modulated scanning LIDAR. We co-locate this directionally controllable LIDAR with a color ...

#93. Mitsubishi Electric Develops MEMS LiDAR Solution for ...

... it has developed a compact MEMS LiDAR Solution for Autonomous Vehicles. The light-detection and ranging (LiDAR) solution incorporates a ...

#94. Pioneer's MEMS mirror-type 3D-LiDAR sensor starts shipment

Pioneer's MEMS mirror-type 3D-LiDAR sensor starts shipment. Providing three types and four models of differing measurement distance, ...

#95. 【新興領域:6 月焦點6】光達技術規格大比拚 - FINDIT

長Elon Musk 便曾公開宣稱其自駕技術發展絕對不會用上LiDAR,並對光達多所 ... 混合固態LiDAR 採用MEMS 掃描鏡,僅需要一束雷射光光源,通過一面MEMS ...

#96. Applications of Hermetic Packages for LiDAR Sensors

SCHOTT hermetic packages provide vital protection for sensitive lasers and MEMS mirrors in LiDAR sensors, enabling optimum performance in this rapidly ...

#97. 传感器的核心——激光雷达的MEMS技术 - 虹科智能感知

为了满足汽车需求,LiDAR必须具有高性能和可扩展性。 基于MEMS的LiDAR是合适的解决方案。 但是如何定义MEMS?

#98. 開發MEMS式LiDAR,水平視角達到120度 - 今天頭條

根據日媒Monoist 報道,新開發的MEMS 式車載LiDAR 大致有兩大特徵:其一,開發電磁驅動式MEMS Mirror,它利用水平、垂直雙軸來掃描發射和接收的光。