https://sun-melab.com 非接触生体計測　研究室　電気通信大学 Fri, 17 Dec 2021 13:54:16 +0000 https://sun-melab.com en https://sun-melab.com/Home Mon, 04 Feb 2019 14:35:28 +0000 非接触生体計測　研究室　電気通信大学 https://sun-melab.com/Home SUN LABORATORY @ UEC ︎ Innovation &amp; Sensitivity 孫光鎬　研究室 　電気通信大学　情報理工学研究科　機械知能システム学専攻Guanghao Sun Laboratory, The University of Electro-Communications https://sun-melab.com/Members Sun, 03 Feb 2019 12:30:17 +0000 非接触生体計測　研究室　電気通信大学 https://sun-melab.com/Members SUN LAB @ UEC ︎Projects 教員 (Faculty) 孫　光鎬 (CV) 黒沢　正樹 博士後期課程 (PhD Program) He RUOYUNGUYEN HUU SONTA HOAI NAM 博士前期課程&nbsp; (MS Program) LAI CHEN 二ノ宮　佳幹 武尾　優樹岩﨑　望叶 今泉　輝草田　菜穂子 学部生&nbsp; &nbsp;(Undergraduate Students) 三輪　 一史 池野　薫 &nbsp; 研究生 (Research Students) 博士号取得者 (PhD) Dr. Hoang Thi Yen 2023/09 Title: CW Radar-based Non-contact Vital Sign Monitoring https://sun-melab.com/Projects Mon, 04 Feb 2019 14:35:29 +0000 非接触生体計測　研究室　電気通信大学 https://sun-melab.com/Projects 研究内容&nbsp; ︎ UEC OPAL-RING ︎ UEC e-Bulletin ︎ Publications 孫研究室では、レーダ(Radar)、サーモグラフィ(Thermography)、RGBカメラ、光電脈波センサ(PPG)、圧電センサ(BCG)、心電計(ECG)、ToFセンサなどのリモートセンサを用いて非接触でバイタルサイン（心拍、呼吸、体温、血圧）を計測するための信号処理と画像処理および同技術を実装した医用システムの実用化研究を行っています。　人体に触れずにバイタルサインを計測する技術の研究・開発がにわかに活発になっています。例えば、マイクロ波レーダを用いることにより、体表面上に生ずる呼吸と心拍に伴う微細な動きを捉えます。また、赤外線サーモグラフィを利用して、体表面から放出される赤外線を測定し、体温を非接触で計測することができます。非接触バイタルサイン計測の利点は、患者への負担が極力少なく、しかも無拘束・無意識などが挙げられます。 　当研究室では、このような非接触バイタルサインを計測する技術を活用し、「社会安全システム（感染症）」、「在宅ヘルスケア」、「高齢者見守り」、「睡眠モニタリング」、「心拍変動計測から自律神経機能活性度評価」、「動物健康モニタリング」分野に焦点を当て、医用機器を研究・開発します。このようなシステムを実用化するために、システム設計、ものづくり、生体情報処理、臨床評価まで行っています。 Our group conducts research on signal and image processing for non-contact vital sign measurement (heart rate, respiration, body temperature, and blood pressure) using remote sensors such as radar, thermography, RGB cameras, photoplethysmography (PPG) sensors, piezoelectric sensors (BCG), electrocardiographs (ECG), and Time-of-Flight (ToF) sensors. The research for measuring vital signs without physical contact have been rapidly advancing. For example, microwave radar can detect minute movements on the body surface caused by respiration and heartbeats. Additionally, infrared thermography enables non-contact measurement of body temperature by detecting infrared radiation emitted from the body surface. The advantages of non-contact vital sign measurement include minimal burden on patients. In our laboratory, we leverage these non-contact vital sign measurement technologies to conduct research and development of medical devices in fields such as "public health and safety systems (infectious disease control)," "home healthcare," "elderly monitoring," "sleep monitoring," "autonomic nervous system activity assessment through heart rate variability analysis," and "animal health monitoring." To realize practical applications of these systems, we engage in system design, hardware development, biological signal processing, and clinical evaluation. <img width="1672" height="1216" width_o="1672" height_o="1216" data-src="https://freight.cargo.site/t/original/i/026a576a596671e5ae0d62e11fd97f33d36f52d5a24cba8b1bbacc40545c5995/sun.jpg" data-mid="220944832" border="0" src="https://freight.cargo.site/w/1000/i/026a576a596671e5ae0d62e11fd97f33d36f52d5a24cba8b1bbacc40545c5995/sun.jpg" /> <img width="1696" height="1163" width_o="1696" height_o="1163" data-src="https://freight.cargo.site/t/original/i/da380c67cb90b2f8aa685c304d2aa747964bca6d8246c291bb57cc2bedf5f435/sun-1.jpg" data-mid="220944833" border="0" src="https://freight.cargo.site/w/1000/i/da380c67cb90b2f8aa685c304d2aa747964bca6d8246c291bb57cc2bedf5f435/sun-1.jpg" /> [P-1]　 非接触バイタルサイン計測技術の研究開発と新生児集中治療室(NICU)での応用 <img width="435" height="334" width_o="435" height_o="334" data-src="https://freight.cargo.site/t/original/i/e2dd3db7760d479f2d19dda9bd972e638fa793e90ba32492be97ffb6b9025882/NICU.jpg" data-mid="173171689" border="0" src="https://freight.cargo.site/w/435/i/e2dd3db7760d479f2d19dda9bd972e638fa793e90ba32492be97ffb6b9025882/NICU.jpg" />子供の科学 2023年2月号 Remote Sensing of Vital Signs by Medical Radar Time-series Signal Using Cardiac Peak Extraction and Adaptive Peak Detection Algorithm: Performance Validation on Healthy Adults and Application to Neonatal Monitoring at an NICU. Computer Methods and Programs in Biomedicine, 2022 小児は心身ともに発育・発達の途上にあるため、自身の情動をコントロールすることが困難である。そのため、接触型機器での測定を受ける際に不安や緊張、恐怖心から啼泣や体動を認めることがあり、呼吸や循環系に対する影響が危惧される。本研究では、小児により安心・安全な医療を提供するための非接触バイタルサイン測定システムを開発し、NICUでの応用を目的とする。同システムの要素技術として、小児に特化した生体信号処理アルゴリズムの開発により計測精度・安定性を保証し、さらに喘息発作重症度適正評価のための自動Modified Pulmonary Index Score (mPI)スコアリングをシステムに実装する。同技術を確立することで、小児医療分野のみではなく多様な臨床現場に対応可能な医療機器の開発に貢献が期待できる。 [P-2]　ToFセンサを用いた非接触呼吸機能評価 <img width="1925" height="1653" width_o="1925" height_o="1653" data-src="https://freight.cargo.site/t/original/i/67e9bc2e20f912c91ead602286adcf6df04c3fa27c40f983cf1bb218f7589813/fphys-11-552942-g002.jpg" data-mid="86602229" border="0" data-scale="77" src="https://freight.cargo.site/w/1000/i/67e9bc2e20f912c91ead602286adcf6df04c3fa27c40f983cf1bb218f7589813/fphys-11-552942-g002.jpg" /> Development and Clinical Application of a Novel Non-contact Early Airflow Limitation Screening System Using an Infrared Time-of-Flight Depth Image SensorFrontiers in Physiology, section Respiratory Physiology, 2020 呼吸の異常は病気の初期兆候です。しかし、臨床現場において呼吸測定の機会は少なくなっています。この理由は、バイタルサインである体温や心拍等と比べて、呼吸の計測が容易ではないためです。 　 本研究グループでは、簡易かつ迅速な呼吸計測のためにToFカメラを用いた呼吸機能の非接触計測システムを研究・開発します。ToFカメラは小型のデバイスで、撮像対象までの距離を算出できます。また、換気量と胸郭変動には相関関係があります。つまり、呼吸に応じて胸郭が微小な上下運動をするため、上述したToFカメラで胸部変位を観測することで、時間変化における呼吸運動を非接触でモニタリングすることができます。本システムではToFカメラから得た呼吸運動の時系列データを解析して、呼吸数を算出します。この呼吸数や呼吸波形の形状などを指標として、病気の診断を行います。 [P-3]　赤外線・RGB顔画像から非接触心拍と呼吸計測と感染症検出への応用 <img width="1420" height="932" width_o="1420" height_o="932" data-src="https://freight.cargo.site/t/original/i/9e72ce5f220b97f0ac71e8bd9aa74d15cee50efa136cb052530480afd82dd1b6/Infection.jpg" data-mid="86603346" border="0" src="https://freight.cargo.site/w/1000/i/9e72ce5f220b97f0ac71e8bd9aa74d15cee50efa136cb052530480afd82dd1b6/Infection.jpg" /> Remote sensing of multiple vital signs using a CMOS camera-equipped infrared thermography system and its clinical application in rapidly screening patients with suspected infectious diseases.International Journal of Infectious Diseases, 2017. 感染症の大流行に備えるためには、空港検疫において、高感度な感染症スクリーニングシステムの開発が必要とされています。現在、空港検疫では健康状態の自己申告とサーモグラフィによる体温検査が中心となっています。しかし、体温検査を基としたスクリーニングは、外気温や服薬や飲酒などの影響を受けやすいという問題点が指摘されています。そこで、感染症有症者の心拍数と呼吸 数を新たな計測項目として加えた高感度な感染症スクリーニングシステムが提案されています。　本研究グループでは、CCDカメラとサーモグラフィを併用することで非接触に心拍・呼吸・体表面温度を計測し、高感度な感染症スクリーニングシステムを開発しています。高精度なシステムの実現のために、信号処理や画像処理の手法を適用することで計測精度向上に取り組んでいます。また、被測定者が健康か有症者かどうか判断するために機械学習を利用した研究も進めています。 [P-4]　マイクロ波ドップラーレーダを用いた健康モニタリングシステム <img width="1358" height="873" width_o="1358" height_o="873" data-src="https://freight.cargo.site/t/original/i/d3b242622ccdd20e08d91c0ba7bf5ba9a4aa662ed45319489be01b354fe0fec3/Monitoring.jpg" data-mid="86603488" border="0" src="https://freight.cargo.site/w/1000/i/d3b242622ccdd20e08d91c0ba7bf5ba9a4aa662ed45319489be01b354fe0fec3/Monitoring.jpg" /> Twenty-Four-Hour Continuous and Remote Monitoring of Respiratory Rate Using a Medical Radar System for the Early Detection of Pneumonia in Symptomatic Elderly Bedridden Hospitalized Patients.Clinical Case Reports, 2019. ドップラーレーダから人体に影響のない電波を人の胸部に対して照射することで、呼吸や心拍による微細な体の動きを観測することができます。レーダで計測した呼吸や心拍による体の動きから、呼吸数と心拍数といったバイタルサインを算出します。体に計測機器を装着することなく、被使用者の負担がわずかであるため健康モニタリングシステム等への応用が期待されています。その例の1つは高齢者や入院患者のための見守りシステムです。ベッドの下にレーダを設置することで、被使用者は寝ているだけでバイタルサインを取得することができます。このため長期間での計測が可能となり、バイタルサインの時系列データを利用することで、使用者の健康状態の管理が容易となることが期待され、医療や介護の現場の負担を減らすことを目指します。もう1つは睡眠評価システムです。ベッドの下に設置したレーダで睡眠中の体の動きを計測することで、バイタルサインの取得だけでなく、無呼吸症候群の判断や睡眠の質の評価が可能となり、従来のウェアラブル端末やスマートフォンを用いる方法よりも詳細で正確なデータを掲示できることが期待されます。超高齢化社会を迎えた現在、我々はこのようなシステムの実用化に向けた研究を行っています。 [P-5]　非接触心拍変動計測による精神疾患患者のスクリーニング法の開発 <img width="1898" height="854" width_o="1898" height_o="854" data-src="https://freight.cargo.site/t/original/i/6917710e76a47b2bd358eee6b098d6fae04069ccf3b7277e29a5a291c44b38ec/MDD.jpg" data-mid="86603628" border="0" src="https://freight.cargo.site/w/1000/i/6917710e76a47b2bd358eee6b098d6fae04069ccf3b7277e29a5a291c44b38ec/MDD.jpg" /> An Objective Screening Method for Major Depressive Disorder Using Logistic Regression Analysis of Heart Rate Variability Data Obtained in a Mental Task Paradigm.Frontiers in Psychiatry, 2016. 大うつ病をはじめとする精神疾患の診断における課題として、簡便に得られる客観的な生理指標がないことが挙げられます。これにより患者側は周囲の理解を十分に得られない場合や、自分の状態を適切に認識することができない場合があります。 　この問題に対し、客観的に自律神経活性度を評価する指標として、心電計や脈波センサ等で非侵襲かつ簡便に計測できる心拍変動があります。心拍の時間間隔は緊張時に優位となる交感神経と安静時に優位となる副交感神経の二重支配を受けており、感情や体の状態変化に反応して常に変動する性質を有しています。心拍変動に含まれる周波数成分から自律神経の活性度を計ることで、ストレスの評価を行うことができます。 　 本研究グループでは、心拍変動を用いたうつ病スクリーニングシステムの実用化研究を行っています。軽い精神負荷課題や呼吸統制を含んだ短時間の心拍計測試験を行い、得られた心拍変動の評価指標から機械学習によってうつ病の傾向を検出します。自宅や職場、病院などの場所で、どなたでも扱える簡便な検査システムの実用化を目指し、病院と共同で評価を進めています。 [P-6]　モバイルプラットフォームにおけるヘルスケアシステムの開発 <img width="5120" height="2880" width_o="5120" height_o="2880" data-src="https://freight.cargo.site/t/original/i/fa1b6a06ae365ebc099373bde2f27e3365fc2493849c1d8a8b9f5ff04dcda80c/MobileHealthPoster.png" data-mid="123545313" border="0" src="https://freight.cargo.site/w/1000/i/fa1b6a06ae365ebc099373bde2f27e3365fc2493849c1d8a8b9f5ff04dcda80c/MobileHealthPoster.png" /> Spatiotemporal Chest-Wall Movement Analysis Using Depth Sensor Imaging for Detecting Respiratory Asynchrony.Informatics in Medicine Unlocked, 2025 近年、ヘルスケアに対する要求として、さまざまな疾患の兆候及び進行をいち早く捕えるための常時計測、即時計測があります。しかし、現状では病院・クリニックといった臨床現場においてのみ行われる計測が未だ多く、個人で手軽に計測できるシステムは十分に普及していない状況があります。 　こうした問題に対してモバイルプラットフォームが注目されています。スマートフォン・タブレットといった端末は専用の医療機器に比べ断然に手に入りやすく、また信号処理を十分に行える処理能力を持っています。同時に、あらかじめ端末に実装されたセンサ群はバイタルサインの計測にも利用でき、かつその通信機能によって遠隔医療への応用もできます。さらには、必要に応じて外部センサを連携させ、より専門的な信号も統合可能です。 　本研究グループはこうしたモバイルプラットフォームの持つポテンシャルを最大限利用し、モバイルアプリケーションと簡便な外部センサのみで完結するヘルスケアシステムの開発を研究しています。例えば、モバイル端末のLiDARスキャナで取得した呼吸信号を用いた呼吸機能試験アプリがあります。研究では、計測のしやすさと臨床診断での使用にも耐えうる精度の両立を目指しています。 [P-7]　実験小動物用非接触バイタルセンシング技術の研究 <img width="1021" height="472" width_o="1021" height_o="472" data-src="https://freight.cargo.site/t/original/i/98a1d8bc5e2f278958ec04c1b5dca2657c9553766f32e50c97fd2acdbe9826d5/P7.jpg" data-mid="174548996" border="0" src="https://freight.cargo.site/w/1000/i/98a1d8bc5e2f278958ec04c1b5dca2657c9553766f32e50c97fd2acdbe9826d5/P7.jpg" />Contactless monitoring of respiratory rate variability in rats under anesthesia with a compact 24GHz microwave radar sensor.Frontiers in Veterinary Science, Section Anesthesiology and Animal Pain Management, 2025 マウス・ラットなどの実験小動物は、生命科学の研究分野に広く利用されており、人類の健康福祉に計り知れない貢献をもたらしている。動物愛護法に基づく3R(Replacement(代替)、 Reduction（削減）、 Refinement(洗練：苦痛軽減)) の理念の下での動物実験が求められ、動物の健康管理のために呼吸・心拍数(周波数のこと)といったバイタルサインの計測が重要となっている。現在、センサ・デバイスは体内への埋込型と電極を利用した接触型が主流であるが、動物生体への侵襲性又は接触性による苦痛・ストレスに加え、計測結果にも悪影響を与えることが懸念されている。そこで、本研究は、3R理念の推進に貢献すべく、非接触型バイタルサイン計測技術の開発により、通常環境での実験小動物の生体計測を目的としている。最大の課題は実験小動物の呼吸と心拍由来のmm以下のオーダーの微小な体表面の変位を非接触で捉えることであり、本研究では非接触型センサであるレーダでこれを実現しようとしている。 https://sun-melab.com/Publications Tue, 05 Feb 2019 15:09:07 +0000 非接触生体計測　研究室　電気通信大学 https://sun-melab.com/Publications SUN LAB @ UEC ︎Informations 研究業績 2026 [J-1]　Huu-Son Nguyen, Masaki Kurosawa, Koichiro Ishibashi, Ryou Tanaka, Cong-Kha Pham, Guanghao Sun Non-Contact Heart Rate Estimation via Higher Harmonic Analysis Using 24-GHz Doppler Radar: Validation in Humans and Anesthetized CatSignals, 2026 [C-1]　 Vuong Tri Tiep, Hoang Thi Yen, Van-Phuc Hoang, My Anh Chu, Nguyen Huu Son, Guanghao SunEnsemble Enhanced Residual Network Based Non-Contact Blood Pressure Estimation Using CW Radar.The 8 th International Conference on Artificial Intelligence in Information and Communication (ICAIIC), 2026 2025 [J-6]　Hoang Thi Yen, Doan Van Sang, Van-Phuc Hoang, Guanghao Sun Non-Contact Pulse Rate Estimation from Remote Photoplethysmography using Wavelet Transform Filter and Convolutional Neural Network. International Journal of Biomedical Engineering and Technology, 2025 [J-5]　Ruoyu He, Masaki Kurosawa,&nbsp;Guanghao Sun Indoor Human Motion Recognition based on FMCW Radar and Threshold Comparison Algorithm. IEEE Access, 2025 [J-4]　Guanghao Sun, Masaki Kurosawa, Yoshiki Ninomiya, Kohei Baba, Nguyen Huu Son, Hoang Thi Yen, Satoshi Suzuki, Yutaka Kano Contactless monitoring of respiratory rate variability in rats under anesthesia with a compact 24GHz microwave radar sensor. Frontiers in Veterinary Science, Section Anesthesiology and Animal Pain Management, 2025 [J-3]　Masaru Mitsuya, Hiroki Nishine, Hiroshi Handa, Masamichi Mineshita, Masaki Kurosawa, Tetsuo Kirimoto, Shohei Sato, Takemi Matsui, Guanghao Sun Spatiotemporal Chest-Wall Movement Analysis Using Depth Sensor Imaging for Detecting Respiratory Asynchrony. Informatics in Medicine Unlocked, 2025 [J-2]　Akito Saito, Shohei Sato, Tsuyoshi Kobayashi, Guanghao Sun, Kenichi Hashimoto, Yukiya Hakozaki, Takemi Matsui The development of a non-contact tachycardia and tachypnea monitoring system, a clinical trial on shock patients Critical Care, 2025 [J-1]　Hoang Thi Yen, Vuong Tri Tiep, Van-Phuc Hoang, Quang-Kien Trinh, Hai-Duong Nguyen, Nguyen Trong Tuyen, Guanghao Sun Radar-based contactless heart beat detection with a modified Pan–Tompkins algorithmBiomedical Physics &amp; Engineering Express, 2025 [C-3]　 Yoshiki Ninomiya, Masaki Kurosawa, Nguyen Huu Son, Kohei Baba, Yutaka Kano, Guanghao Sun Monitoring of Vital Signs in Anesthetized Rats via Harmonic-based Algorithms with 24 GHz Doppler Radar. The 10th International Conference on Intelligent Informatics and BioMedical Sciences (ICIIBMS), 2025 [C-2]　 Ruoyu He, Masaki Kurosawa, Guanghao SunFMCW Radar Respiratory Monitoring via Sequential Motion State Classification and Apnea Segmentation.The 9th International Conference on Communication and Information Systems (ICCIS 2025), 2025 [C-1]　 Nguyen Huu Son, Masaki Kurosawa, Hoang Thi Yen, Guanghao SunHeart Rate Detection Using CW Doppler Radar: Adaptive Dual-Algorithm Selection with Quality Assessment Framework.The 24 th International Symposium on Communications and Information Technologies (ISCIT), 2025 [N-1]　孫光鎬 実験小動物用非接触バイタルセンシング技術の研究 Medical Science Digest 、２０２５年１０月 2024 [J-4]　Toshiaki Kawabe, Shota Kita, Isao Ohmura, Ryuji Michino, Hidenori Watanabe, Guanghao Sun, Seiya Inoue Non-invasive acquisition of vital data in anesthetized rats using laser and radar application. Laboratory animals, 2024. [J-3]　Guanghao Sun, Masaki Kurosawa, Yoshiki Ninomiya, Kohei Baba, Yutaka Kano Updating ”Medical Radar Signal Dataset for Non-Contact Respiration and Heart Rate Measurement” with Expanded Data on Laboratory Rats under Isoflurane Anesthesia. Data in Brief, 2024. [J-2]　Hoang Thi Yen, Van-Phuc Hoang, Guanghao Sun Heart Rate Variability Monitoring under Stimulation Input Using Non-Contact CW Radar. REV Journal on Electronics and Communications, 2024. [J-1]　Kohei Nakai, Masaki Kurosawa, Tetsuo Kirimoto, Takemi Matsui, Shigeto Abe, Satoshi Suzuki, Guanghao Sun Performance Enhancement of Thermal Image Analysis for Non-contact Cardiopulmonary Signal Extraction.Infrared Physics and Technology, 2024 &nbsp; [N-2]　孫光鎬、 黒沢正樹 連続波レーダによる非接触呼吸・心拍計測技術とその応用 日本工業出版クリーンテクノロジー、２０２４年１２月 [N-1]　孫光鎬赤外線熱画像による非接触型バイタルセンシング技術 月刊BIO INDUSTRY、２０２４年１２月 2023 [J-3]　 Hoang Thi Yen, Masaki Kurosawa, Tetsuo Kirimoto, Yukiya Hakozaki, Takemi Matsui, Guanghao Sun Non-contact Estimation of Cardiac Inter-beat&nbsp;Interval&nbsp;and&nbsp;Heart&nbsp;Rate&nbsp;Variability&nbsp;Using&nbsp;Time frequency&nbsp;Domain&nbsp;Analysis&nbsp;for&nbsp;CW&nbsp;Radar. IEEE Journal of Electromagnetics, RF, and Microwaves in Medicine and Biology, 2023. [J-2]　Miyu Katoh, Takeru Kanazawa, Yoshifusa Abe, Guanghao Sun, Takemi Matsui Development of a stand-alone portable respiratory rate monitor using a Doppler radar. IEEJ Transactions on Electronics, Information and Systems, 2023. [J-1]　Toshikazu Shinba, Daisuke Kuratsune, Shuntaro Shinba, Yujiro Shinba, Guanghao Sun, Takemi Matsui, Hirohiko KuratsuneMajor Depressive Disorder and Chronic Fatigue Syndrome Show Characteristic Heart Rate Variability Profiles Reflecting Autonomic Dysregulations: Differentiation by Linear Discriminant Analysis Sensors, 2023. [C-4]　 Batbayar Unursaikhan, Guanghao Sun, Takemi Matsui and Gereltuya AmarsanaaPhysiological Parameters-Based Mobile and Non-Contact COVID-19 Screening System Using RGB-Depth-Thermal Cameras22nd IEEE Statistical Signal Processing (SSP) workshop, 2023[C-3]　 Hoang Thi Yen, Van-Phuc Hoang, Quang-Kien Trinh, Sang Van Doan, and&nbsp;Guanghao SunSleep Apnea Patient Monitoring Using Continuous-wave Radar. 22nd IEEE Statistical Signal Processing (SSP) workshop, 2023 [C-2] 　 Maho Nishikawa, Sumiyakhand Dagdanpurev, Takuya Hashimoto, Masaki Kurosawa, Tetsuo Kirimoto, Toshikazu Shinba, Takemi Matsui, Guanghao Sun Pulse rate variability estimation method based on imaging-photoplethysmography and application to telepsychiatry. 45th Annual International Conference of the IEEE Engineering in Medicine &amp; Biology Conference (EMBC), 2023 [C-1]　 Amon Tanizaki, Takuya Hashimoto, Guanghao SunStudy on Autonomous Non-contact Measurement of Biometric Signals.45th Annual International Conference of the IEEE Engineering in Medicine &amp; Biology Conference (EMBC), 2023 [N-2]　黒沢正樹、孫光鎬心拍変動までを測定可能とする非接触型バイタルサイン・モニタリングシステム電子情報通信学会誌ニュース解説、２０２３年４月 [N-1]　孫光鎬、阿部祥英医療レーダーを使い非接触で子供の体調チェック子供の科学、２０２３年２月 2022 [J-6]　 Miyu Katoh,Takeru Kanazawa,Yoshifusa Abe,Guanghao Sun,Takemi Matsui Development of a non-contact 15-second pediatric respiratory rate monitor using microwave radar and its clinical application Acta Paediatrica, 2022 [J-5]　Keisuke Edanami, Masaki Kurosawa, Hoang Thi Yen, Takeru Kanazawa, Yoshifusa Abe, Tetsuo Kirimoto, Yu Yao, Takemi Matsui, Guanghao Sun Remote Sensing of Vital Signs by Medical Radar Time-series Signal Using Cardiac Peak Extraction and Adaptive Peak Detection Algorithm: Performance Validation on Healthy Adults and Application to Neonatal Monitoring at an NICU Computer Methods and Programs in Biomedicine, 2022 [J-4]　Tomoko Inoue, Takemi Matsui, Toshikazu Shinba, Masanari Itokawa, Guanghao Sun, Maho Nishikawa, Mitsuhiro Miyashita, Kazuhiro Suzuki, Nobutoshi Kariya and Makoto Arai The Development and Clinical Application of a Novel Schizophrenia Screening System using Yoga-Induced Autonomic Nervous Responses. Frontiers in Physiology, 2022　 [J-3] 　 Batbayar Unursaikhan, Gereltuya Amarsanaa, Guanghao Sun, Kenichi Hashimoto, Otgonbat Purevsuren, Lodoiravsal Choimaa, Takemi Matsui Development of a Novel Vital-Signs-Based Infection Screening Composite-Type Camera With Truncus Motion Removal Algorithm to Detect COVID-19 Within 10 Seconds and Its Clinical Validation. Frontiers in Physiology, 2022　 [J-2]　Hoang Thi Yen, Masaki Kurosawa, Tetsuo Kirimoto, Yukiya Hakozaki, Takemi Matsui, Guanghao Sun&nbsp; A medical radar system for non-contact vital sign monitoring and clinical performance evaluation in hospitalized older patients. Biomedical Signal Processing &amp; Control, 2022 [J-1]　 Keisuke Edanami, Guanghao Sun Medical Radar Signal Dataset for Non-Contact Respiration and Heart Rate Measurement. Data in Brief, 2022 [C-5] &nbsp; Hoang Thi Yen, Masaki Kurosawa, Tetsuo Kirimoto, Satoshi Suzuki, and Guanghao Sun (Outstanding Demo Award) I/Q channel selection for 24 GHz CW radar to non-contact vital signs detection for health check system IEEE 11th Global Conference on Consumer Electronics (GCCE 2022), 2022 [C-4] 　Hoang Thi Yen, Nguyen Huu Son, Hoang Van Phuc, Trinh Quang Kien, Tran Xuan Nam, Koichiro Ishibashi and Guanghao Sun Real-Time Medical Radar-based Vital Sign Monitoring System Implemented with Signal Quality Classification Algorithm 2022 International Conference On Advanced Technologies For Communications, 2022 [C-3] 　Nguyen Huu Son, Hoang Thi Yen, Guanghao Sun, Koichiro Ishibashi&nbsp; (Best Student Paper Award) High-Accuracy Heart Rate Estimation by Half/Double BBI Moving Average and Data Recovery Algorithm of 24GHz CW-Doppler Radar 2022 International Conference On Advanced Technologies For Communications, 2022 [C-2] 　Masaki Amano, Tho Mai Duc, Koichiro Ishibashi, Guanghao Sun, Trung Nguyen Vu, Hoi Le Thi, Hoa Nguyen ThiDeep Learning Approach for Classifying Bacteria Types Using Morphology of Bacterial ColonyThe 44th Annual International Conference of the IEEE Engineering in Medicine &amp; Biology Society (EMBC), 2022 [C-1] 　Masaru Mitsuya, Masaki Kurosawa, Tetsuo Kirimoto, Takemi Matsui, Guanghao SunAn mHealth App for the Non-contact Measurement of Pulmonary Function Using the Smartphone’s Built-in Depth SensorThe 44th Annual International Conference of the IEEE Engineering in Medicine &amp; Biology Society (EMBC), 2022 2021 [J-6]　&nbsp; Akito Tohma, Maho Nishikawa, Takuya Hashimoto, Yoichi Yamazaki, Guanghao Sun Evaluation of Remote Photoplethysmography Measurement Conditions Toward Telemedicine Applications Sensors, 2021 [J-5]　&nbsp; Toshikazu Shinba, Keizo Murotsu, Yosuke Usui, Yoshinori Andow, Hiroshi Terada, Nobutoshi Kariya, Yoshitaka Tatebayashi, Yoshiki Matsuda, Go Mugishima, Yujiro Shinba, Guanghao Sun and Takemi MatsuiReturn-to-Work Screening by Linear Discriminant Analysis of Heart Rate Variability Indices in Depressed SubjectsSensors, 2021. [J-4]　 Yuki Iwata, Koichiro Ishibashi, Guanghao Sun, Han Trong ThanhHigh Accuracy Heartbeat Detection from CW-Doppler Radar Using Singular Value Decomposition and Matched Filter.Sensors, 2021. [J-3]　 Thanh Han Trong, Yen Pham Huong, Lam Nguyen Dang Son, Yuki Iwata, Tuan Do Trong, Koichiro Ishibashi,­­­ and Guanghao SunMachine Learning based Classification Model for Screening of Infected Patients Using Vital Signs.Informatics in Medicine Unlocked, 2021. [J-2]　 Batbayar Unursaikhan, Nobuaki Tanaka, Guanghao Sun, Sadao Watanabe, Masako Yoshii, Kazuki Funahashi, Fumihiro Sekimoto, Fumiaki Hayashibara, Yutaka Yoshizawa, Lodoiravsal Choimaa, Takemi MatsuiDevelopment of a Novel Web Camera-Based Contact-Free Major Depressive Disorder Screening System Using Autonomic Nervous Responses Induced by a Mental Task and its Clinical ApplicationFrontiers in Physiology, section Computational Physiology and Medicine, 2021. [J-1]　 Nguyen Dinh Chinh, Luu Manh Ha, Guanghao Sun, Le Quoc Anh, Pham Viet Huong, Tran Anh Vu, Tran Trong Hieu, Tran Duc Tan, Nguyen Vu Trung, Koichiro Ishibashi, Nguyen Linh TrungShort Time Cardio-vascular Pulses Estimation for Dengue Fever Screening via Continuous-Wave Doppler Radar using Empirical Mode Decomposition and Continuous Wavelet Transform. Biomedical Signal Processing &amp; Control, 65, 102361, 2021. [C-3] 　Hoang Thi Yen, Masaki Kurosawa, Tetsuo Kirimoto, Keisuke Edanami, Guanghao SunProof-Of-Principle Experiment on 24 GHz Medical Radar for Non-Contact Vital Signs MeasurementThe 43rd Annual International Conference of the IEEE Engineering in Medicine &amp; Biology Society (EMBC), 2021[C-2] 　Keisuke Edanami, Yu Yao, Hoang Thi Yen, Masaki Kurosawa, Tetsuo Kirimoto, Yukiya Hakozaki, Takemi Matsui, Guanghao SunDesign and Evaluation of Digital Filters for Non-Contact Measuring of HRV using Medical Radar and Its Application in Bedside Patient Monitoring SystemThe 43rd Annual International Conference of the IEEE Engineering in Medicine &amp; Biology Society (EMBC), 2021[C-1] 　Maho Nishikawa, Batbayar Unursaikhan, Takuya Hashimoto, Masaki Kurosawa, Tetsuo Kirimoto, Toshikazu Shinba, Takemi Matsui, Guanghao SunNon-Contact Measurement of Pulse Rate Variability Using a Webcam and Application to Mental Illness Screening SystemThe 43rd Annual International Conference of the IEEE Engineering in Medicine &amp; Biology Society (EMBC), 2021 2020 [J-5]　 Hiroki Takamoto, Hiroki Nishine, Shohei Sato, Guanghao Sun, Sadao Watanabe, Kim Seokjin, Masahito Asai, Masamichi Mineshita, Takemi MatsuiDevelopment and Clinical Application of a Novel Non-contact Early Airflow Limitation Screening System using an Infrared Time-of-flight Depth Image Sensor. Frontiers in Physiology, section Respiratory Physiology, 11:552942, 2020 [J-4]　 Guanghao Sun,&nbsp;Nguyen Vu Trung, Le Thi Hoi, Pham Thanh Hiep, Koichiro Ishibashi, Takemi Matsui Visualization of Epidemiological Map using an Internet of Things Infectious Disease Surveillance Platform. Critical Care, Article number: 400, 2020 [J-3]　 Takemi Matsui, Tsuyoshi Kobayashi, Masaya Hirano, Masahiro Kanda, Guanghao Sun, Yusuke Otake, Masakazu Okada, Sadao Watanabe, Yuikiya Hakozaki A Pneumonia Screening System based on Parasympathetic Activity Monitoring in Non-contact Way using Compact Radars Beneath the Bed Mattress. Journal of Infection, 81(2): e142–e144, 2020. [J-2]　 Shinba Toshikazu, Murotsu Keizo, Usui, Yosuke, Andow Yoshinori, Terada Hiroshi, Takahashi Mami, Takii Rie, Urita Michiko, Sakuragawa Satoshi, Mochizuki Miwa, Kariya Nobutoshi, Matsuda Saori, Obara Yusuke, Matsuda Hanae, Tatebayashi Yoshitaka, Matsuda Yoshiki, Mugishima Go, Nedachi Takaki, Guanghao Sun, Tomoko Inoue, Takemi Matsui Usefulness of heart rate variability indices in assessing the risk of an unsuccessful return to work after sick leave in depressed patients. Neuropsychopharmacology Reports, 40(3),&nbsp;239-245, 2020. [J-1]　 Toshiaki Negishi, Shigeto Abe, Takemi Matsui, He Liu, Masaki Kurosawa, Tetsuo Kirimoto, Guanghao Sun Contactless vital signs measurement system using RGB-thermal image sensors and its clinical screening test on patients with seasonal influenza. Sensors, 20(8):E2171, 2020. [C-6]　 Koichiro Ishibashi, Guanghao Sun, Nguyen Vu Trung, Le Thi Hoi, Nugyen Van Kinh, Do Trong Tuan, Han Trong Thanh, Nguyen Linh Trung, Luu Manh Ha, Pham Thanh Hiep, and Takemi Matsui Development Of Infection Diseases Screening System By Collaboration Between Vietnam And Japan. The VANJ Conference, 2020 [C-5]　 Yuki Iwata, Koichiro Ishibashi and Guanghao Sun Non-contact Heartbeat Detection by using CW-Doppler Radar under Respiratory Artifact. The 2nd ASEAN - UEC Workshop on Energy and AI, 2020. [C-4]　 Hirokazu Sakamoto, Tomoya Matsushima, Keisuke Edanami, Maho Nishikawa, Guanghao Sun Demonstration of a Noncontact Infection Screening System Based on RGB-Thermal-Imaging Processing for Detection of Patients with Suspected Infectious Disease. IEEE 9th Global Conference on Consumer Electronics (GCCE), 2020. [C-3]　 Han Trong Thanh, Pham Huong Yen, Koichiro Ishibashi, Guanghao Sun and Tuan Do Trong Machine Learning Algorithms for Dengue Fever Patient Classification IEEE 8th International Conference on Communications and Electronics (ICCE), 2020 [C-2]　 Yuki Iwata, Koichiro Ishibashi, Guanghao Sun, Manh Ha Luu, Thanh Han Trong, Nguyen Linh-Trung, Tuan Do TrongContactless Heartbeat Detection from CW-Doppler Radar using Windowed-Singular Spectrum Analysis The 42nd Annual International Conference of the IEEE Engineering in Medicine &amp; Biology Society (EMBC), 2020, Montréal, Canada. [C-1] 　Hirokazu Sakamoto, Hiroki Takamoto, Takemi Matsui, Tetsuo Kirimoto, Guanghao Sun &nbsp; A Non-contact Spirometer with Time-of-Flight Sensor for Assessment of Pulmonary Function The 42nd Annual International Conference of the IEEE Engineering in Medicine &amp; Biology Society (EMBC), 2020, Montréal, Canada. 2019 [J-7]　 Guanghao Sun, Tanaka Yosuke, Kiyono Ken, Hashimoto Kenichi, Takase Bonpei, Liu He, Kirimoto Tetsuo, Matsui Takemi Non-contact monitoring of heart rate variability using medical radar for the evaluation of dynamic changes in autonomic nervous activity during a head-up tilt test. Journal of Medical Engineering &amp; Technology, 43(7), 411-417, 2019. [J-6] Cuong V. Nguyen, Truong Le Quang, Trung Nguyen Vu, Hoi Le Thi, Kinh Nguyen Van, Thanh Han Trong, Tuan Do Trong, Guanghao Sun, Koichiro Ishisbashi A non-contact infection screening system using medical radar and Linux-embedded FPGA: implementation and preliminary validation.&nbsp; Informatics in Medicine Unlocked, 16, 100225, 2019. [J-5]　Pham Thanh Hiep, Nguyen Nhu Thang, Guanghao Sun, Nguyen Huy Hoang Proposal of Hierarchical Topology and Spatial reuse superframe for Enhancing Throughput of Cluster-based WBAN. ETRI Journal, 41(5), 648-657, 2019. [J-4]　He Liu, Deyun Chen,&nbsp;Guanghao Sun Detection of Fetal ECG R Wave from Single-Lead Abdominal ECG Using a Combination of RR Time-Series Smoothing and Template-Matching Approach. IEEE Access, 7, 66633-66643, 2019. [J-3]　 Yu Yao, Guanghao Sun, Tetsuo Kirimoto and Michael SchiekExtracting Cardiac Information from Medical Radar Using Locally Projective Adaptive Signal Separation.Frontiers in Physiology, 2019. [J-2]　Sumiyakhand Dagdanpurev, Shigeto Abe, Guanghao Sun, Hidekazu Nishimura, Lodoiravsal Choimaa, Yukiya Hakozaki, Takemi Matsui A novel machine-learning-based infection screening system via 2013-2017 seasonal influenza patients’ vital signs as training datasets. Journal of Infection, 78(5), 409-421, 2019. [J-1]　Guanghao Sun, Masakazu Okada, Rin Nakamura, Taro Matsuo, Tetsuo Kirimoto, Yukiya Hakozaki, Takemi Matsui Twenty-Four-Hour Continuous and Remote Monitoring of Respiratory Rate Using a Medical Radar System for the Early Detection of Pneumonia in Symptomatic Elderly Bedridden Hospitalized Patients.Clinical Case Reports, 7(1), 83-86, 2019. [C-14] 　Guanghao Sun Sensor fusion technology for non-contact measurement of vital signs and its medical applications. (Invited Talk)The 5th GHD International Symposium, 2019, Iksan. [C-13] 　Guanghao Sun, Masakazu Okada, Yukiya Hakozaki, Tomoya Matsushima, Tetsuo Kirimoto, Takemi Matsui Development of a hospitalized-patient monitoring system using medical radar for continuously and remotely monitors of respiratory rate. The 17th International Conference on Biomedical Engineering, 2019, Singapore. [C-12] 　 Yuki Iwata, Koichiro Ishibashi, Guanghao Sun Vital Signs Detection using CW-Doppler Radar under Body Movement Based on PCA Algorithm.The 17th International Conference on Biomedical Engineering, 2019, Singapore. [C-11] 　 Hiroki Nishine, Hiroki Takamoto, Guanghao Sun, Shohei Sato, Takeo Inoue, Takemi Matsui, Masamichi MineshitaNon-contact radar screening system in patients with chronic obstructive pulmonary disease.European Respiratory Society International Congress, 2019, Spain. [C-10] 　Guanghao Sun Multiple Sensor Fusion Technology for Non-contact Measurement of Vital Signs and its Clinical Applications. (Invited Talk) The 1st ECTI UEC Workshop on AI and Application, 2019, Bangkok, Thailand. [C-9] 　Toshiaki Negishi, Guanghao Sun, Tetsuo Kirimoto Development of Remote Infection Screening System Using RGB Camera and Thermography. (Young Researcher Encouragement Award) The 1st ECTI UEC Workshop on AI and Application, 2019, Bangkok, Thailand. [C-8] 　Toshiaki Negishi, Guanghao Sun, Shohei Sato, He Liu, Takemi Matsui, Shigeto Abe, Hidekazu Nishimura, Tetsuo Kirimoto Infection Screening System Using Thermography and CCD Camera with Good Stability and Swiftness for Non-contact Vital-Signs Measurement by Feature Matching and MUSIC Algorithm. The 41st Annual International Conference of the IEEE Engineering in Medicine &amp; Biology Society (EMBC), 2019, Berlin, Germany. [C-7] 　Cuong V. Nguyen,Duc Dinh-Trung,Guanghao Sun,Thanh Han Trong Thanh,Tuan Do Trong,Koichiro IshibashiA Non-Contact Cardiopulmonary Measuring System Using Medical Radar and FPGA. The 41st Annual International Conference of the IEEE Engineering in Medicine &amp; Biology Society (EMBC), 2019, Berlin, Germany. [C-6] 　Sumiyakhand Dagdanpurev, Udval Tsogzolmaa, Guanghao Sun, Lodoiravsal Choimaa, Shigeto Abe, Takemi Matsui Development of a low-cost, portable, pediatric infection screening system using simultaneous measurement of multiple vital signs. The 41st Annual International Conference of the IEEE Engineering in Medicine &amp; Biology Society (EMBC), 2019, Berlin, Germany. [C-5] 　Kotaro Higashi, Guanghao Sun, Koichiro Ishibashi Precise Heart Rate Measurement Using Non-contact Doppler Radar Assisted by Machine-Learning-Based Sleep Posture Estimation The 41st Annual International Conference of the IEEE Engineering in Medicine &amp; Biology Society (EMBC), 2019, Berlin, Germany. [C-4] 　Tomoyuki Ohata, Koichiro Ishibashi, Guanghao Sun Continuous and Non-Contact Blood Pressure Measurement Scheme Using Doppler Radar. The 41st Annual International Conference of the IEEE Engineering in Medicine &amp; Biology Society (EMBC), 2019, Berlin, Germany. [C-3] 　Guanghao SunNon-contact Vital Sign Measurement with Medical Radar and its Clinical Applications. (Invited Paper)The 3rd International Conference on Recent Advances in Signal Processing, Telecommunications &amp; Computing (SigTelCom2019), 2019, Hanoi, Vietnam.[C-2] 　Xiaofeng Yang, Koki Kumagai, Guanghao Sun, Koichiro Ishibashi, Le Thi Hoi, Nguyen Vu Trung and Nguyen Van KinhDengue Fever Screening Using Vital Signs by Contactless Microwave Radar and Machine Learning. (Student Travel Award)2019 IEEE Sensors Applications Symposium, 2019, Sophia Antipolis, France.[C-1] 　Mai Kobayashi, Guanghao Sun, Tetsuo Kirimoto, Toshikazu Shinba, Takemi MatsuiDevelopment of a Mental Disorder Screening System Using Support Vector Machine for Classification of Heart Rate Variability Measured from Single-lead Electrocardiography.2019 IEEE Sensors Applications Symposium, 2019, Sophia Antipolis, France. 2018 [B-1]　Guanghao Sun, Toshiaki Negishi, Tetsuo Kirimoto, Takemi Matsui, Shigeto AbeNon-contact monitoring of vital signs with RGB and infrared camera and its application to screening of potential infection. Chapter: Non-Invasive Diagnostic Methods Image Processing, IntechOpen, 2018 [J-4]　Takemi Matsui, Satoshi Suzuki, Guanghao Sun, and Eddie Ng Yin KweeSensors and Data Processing Techniques for Future Medicine. (Editorial)Journal of Sensors, Article ID 1210609, 2018 [J-3]　Sumiyakhand Dagdanpurev, Guanghao Sun, Toshikazu Shinba, Mai Kobayashi, Nobutoshi Kariya, Lodoiravsal Choimaa, Suvdaa Batsuuri, Seokjin Kim, Satoshi Suzuki and Takemi MatsuiDevelopment and clinical application of a novel autonomic transient response-based screening system for major depressive disorder using a fingertip photoplethysmographic sensor.Frontiers in Bioengineering and Biotechnology, 6(64), 2018[J-2]　Takemi Matsui, Toshikazu Shinba, and Guanghao SunThe development of a novel high-precision major depressive disorder screening system using transient autonomic responses induced by dual mental tasks.Journal of Medical Engineering of Technology, 42(2), 121-127, 2018.[J-1]　Guanghao Sun, Takemi Matsui, Yasuyuki Watai, Seokjin Kim, Tetsuo Kirimoto, Satoshi Suzuki and Yukiya HakozakiVital-SCOPE: Design and Evaluation of a Smart Vital Signs Monitor for Simultaneous Measurement of Pulse Rate, Respiratory Rate, and Body Temperature for Patient Monitoring.Journal of Sensors, Article ID 4371872, 2018. [C-7] 　Guanghao Sun, Nguyen Vu Trung, Le Thi Hoi, Vu Thi Thu Huong, Nguyen Nguyen Huyen, Takemi Matsui, Hiroki Furukawa, Koichiro Ishibashi, Tetsuo Kirimoto, and Nguyen Van KinhDvelopment and clinical evaluation of a multiple vital-sign based infection screening system for rapid detection of dengue fever at the National Hospital of Tropical Diseases, Vietnam.The 8th ASEAN Conference of Tropical Medicine and Parasitology, 2018, Nha Trang, Vietnam.[C-6] 　Guanghao Sun, Takahiro Nakamura, Satoshi Suzuki, Mai Kobayashi, Tetsuo KirimotoDevelopment of a 79 GHz Millimeter-Wave Radar System for Remote Monitoring of Vital SignThe 40th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 2018, Hawaii, USA[C-5] 　Tomoyuki Ohata, Koichiro Ishibashi, Guanghao SunContinuous Cuffless Systolic Blood Pressure Monitoring Scheme Using PPG Sensor and Doppler RadarThe 40th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 2018, Hawaii, USA[C-4] 　Xiaofeng Yang, Koichiro Ishibashia, Le Hoi, Trung Nguyen Vu, Kinh Nguyen Van, Guanghao SunDengue Fever Detecting System Using Peak-Detection of Data from Contactless Doppler Radar.The 40th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 2018, Hawaii, USA[C-3] 　Toshiaki Negishi, Guanghao Sun, He Liu, Shohei Sato, Takemi Matsui, Tetsuo KirimotoStable Contactless Sensing of Vital Signs Using RGB-Thermal Image Fusion System with Facial Tracking for Infection Screening.The 40th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 2018, Hawaii, USA[C-2] 　Sumiyakhand Dagdanpurev, Guanghao Sun, Lodoiravsal Choimaa, Shigeto Abe, Takemi MatsuiClinical Application of Multiple Vital Signs-Based Infection Screening System in a Mongolian Hospital: Optimization of Facial Temperature Measurement by Thermography at Various Ambient Temperature Conditions Using Linear Regression Analysis.The 40th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 2018, Hawaii, USA[C-1] 　Guanghao SunVital Sign Acquisition in the National Hospital of Tropical Diseases of Hanoi.The 4th UEC Seminar in ASEAN, 2018, Bangkok. 2017 [B-1]　Guanghao Sun, Takemi Matsui, Tetsuo Kirimoto, Yu Yao, Shigeto AbeApplications of Infrared Thermography for Noncontact and Noninvasive Mass Screening of Febrile International Travelers at Airport Quarantine Stations. Chapter: Application of Infrared to Biomedical Sciences, 347-358, Springer, 2017. [J-3]　Wenwei Yu, Keigo Nakahata, Shao Ying Huang, Guanghao Sun, Akio Namiki, Le Xie, Jinwu Wang, Sayuri Suwa, and Mayuko TsujimuraEfficient Active Sensing with Categorized Further Explorations for a Home-behavior-monitoring Robot. Journal of Healthcare Engineering, Article ID 6952695, 2017. [J-2]　Guanghao Sun, Yosuke Nakayama, Sumiyakhand Dagdanpurev, Shigeto Abe, Hidekazu Nishimura, Tetsuo Kirimoto, Takemi MatsuiRemote sensing of multiple vital signs using a CMOS camera-equipped infrared thermography system and its clinical application in rapidly screening patients with suspected infectious diseases. International Journal of Infectious Diseases, 55, 113-117, 2017. [J-1]　Guanghao Sun, Nguyen Vu Trung, Takemi Matsui, Koichiro Ishibashi, Tetsuo Kirimoto, Hiroki Furukawa, Le Thi Hoi, Nguyen Nguyen Huyen, Quynh Nguyen, Shigeto Abe, Yukiya Hakozaki, Nguyen Van KinhField evaluation of an infectious disease/fever screening radar system during the 2017 dengue fever outbreak in Hanoi, Vietnam: A preliminary report.Journal of Infection, 75(6), 590-593, 2017. [C-5] 　Takuya Hashimoto, Keita Tsuji, Yoichi Yamazaki and Guanghao SunEstimation of Autonomic Nervous Activity toward Affective Human-Robot InteractionThe 2017 IEEE Symposium Series on Computational Intelligence, 2017, Hawaii, USA[C-4] 　Xiaofeng Yang, Koichiro Ishibashi, Toshiaki Negishi, Tetsuo Kirimoto, Guanghao SunShort Time and Contactless Virus Infection Screening System with Discriminate Function Using Doppler Radar.12th International Conference on Bio-Inspired Computing: Theories And Application, 2017, Harbin, China[C-3] 　Yu Yao, Guanghao Sun, Tetsuo Kirimoto, Takemi Matsui, Michael SchiekOnline State Space Filtering of Biosignals using Neural Network-Augmented Kalman Filter.The 10th Biomedical Engineering International Conference, 2017, Hokkaido, Japan.[C-2] 　Xiaofeng Yang, Guanghao Sun, Koichiro IshibashiNon-Contact Acquisition of Respiration and Heart Rates Using Doppler Radar with Time Domain Peak-Detection Algorithm.The 39th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 2017, Jeju Island, Korea.[C-1] 　Mai Kobayashi, Guanghao Sun, Toshikazu Shinba, Takemi Matsui, Tetsuo KirimotoSimple and Objective Screening of Major Depressive Disorder by Heart Rate Variability Analysis During Paced Respiration and Mental Task Conditions.The 39th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 2017, Jeju Island, Korea. 2016 [J-4]　Guanghao Sun, Toshikazu Shinba, Tetsuo Kirimoto, and Takemi MatsuiAn Objective Screening Method for Major Depressive Disorder Using Logistic Regression Analysis of Heart Rate Variability Data Obtained in a Mental Task Paradigm. Frontiers in Psychiatry, 7(180), 2016. [J-3]　Enrique Dorronzoro Zubiete, Keigo Nakahata, Nevrez Imamoglu, Masashi Sekine, Guanghao Sun, Isabel María Gómez and Wenwei YuEvaluation of a home bio-monitoring autonomous mobile robot. Computational Intelligence and Neuroscience, Article ID 9845816, 2016. [J-2]　Guanghao Sun, Masahiko Akanuma, Takemi MatsuiClinical Evaluation of the Newly Developed Infectious Disease/Fever Screening Radar System Using the Neural Network and Fuzzy Grouping Method for Travellers with Suspected Infectious Diseases at Narita International Airport Clinic. Journal of Infection, 72(1), 121-123, 2016. [J-1]　Yu Yao, Guanghao Sun, Takemi Matsui, Yukiya Hakozaki, Stefan van Waasen, Michael SchiekMultiple Vital-sign Based Infection Screening Outperforms Thermography Independent of the Classification Algorithm. IEEE Transactions on Biomedical Engineering, 63(5), 1025-1033, 2016. [C-3]　Guanghao Sun, Wenwei YuDevelopment of an EMG-based Human-Machine Interface on Open-source Linux Platform for Evaluating the Motor Skill Acquisition Process. The 16th International Conference on Biomedical Engineering, 2016, Singapore. [C-2]　Guanghao Sun, Yu Yao, Sumiyakhand Dagdanpurev, Satoshi Suzuki, Takemi Matsui, Tetsuo KirimotoA Comparative Study between Piezoelectric Pressure Sensor and Doppler Radar for Noncontact Monitoring of Respiration Rate. The 16th International Conference on Biomedical Engineering, 2016, Singapore. [C-1]　Takemi Matsui, Guanghao Sun, Bazarragchaa Ts., Sumiyakhand D., Yukiya Hakozaki, Lodoiravsal Ch., Buyanjargal Ya., Odmaa E., Myagmarjav Z., Suvdmaa N., Batsukh B.The rapid screening of patients with suspected infection in Mongolia using infection screening system with a compact radar, a thermopile array and a pulse photo-sensor. International Scientific Conference on Tackling Infectious Diseases: Information for Action, 2016, Ulaanbaatar, Mongolia.　 2015 [J-4]　Guanghao Sun, Keisuke Miyata, Ayumu Matsuoka, Zijun Zhao, Sayuri Iwakami, Seokjin Kim, Takemi MatsuiA compact and hand-held infection-screening system for use in rapid medical inspection at airport quarantine stations: system design and preliminary validation.Journal of Medical Engineering &amp; Technology, 39(3), 185-190, 2015.[J-3]　Guanghao Sun, Nguyen Quang Vinh, Ayumu Matsuoka, Seokjin Kim, Shigeto Abe, Takemi MatsuiDevelopment of an infection screening system using non-contact bio-measurement technology. (Japanese)Japanese Journal of Disaster Medicine, 20(1), 10-15, 2015. [J-2]　Ayumu Matsuoka, Guanghao Sun, Keisuke Miyata, Ayano Watanabe, Seokjin Kim, Yukiya Hakozaki, Takemi Matsui The development of a new infection screening system which incorporates data processing unit and its clinical applications for seasonal influenza patients. (Japanese) Japanese Journal of Disaster Medicine, 20(1), 16-22, 2015.[J-1]　Guanghao Sun, Takemi Matsui, Yukiya Hakozaki, Shigeto AbeAn infectious disease/fever screening radar system which stratifies higher-risk patients within ten seconds using a neural network and the fuzzy grouping method.Journal of Infection, 70(3), 230-236, 2015. [C-2]　Guanghao Sun, Yasuyuki Watai, and Takemi MatsuiDevelopment of a Wireless Physiological Computing Platform Using National Instruments' myRIO Embedded Device.The IEEE 4th Global Conference on Consumer Electronics, 2015, Osaka, Japan.[C-1]　Guanghao Sun and Takemi MatsuiRapid and Stable Measurement of Respiratory Rate from Doppler Radar Signals Using Time Domain Autocorrelation Model.The 37th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 2015, Milano, Italy. 2014 [J-4]　Guanghao Sun, Yu Yao, Ritsu Yoshinaka, Mayumi Ikegami, Seokjin Kim, Michael Schiek, Takemi MatsuiA Pediatric Infection Screening System with a Radar Respiration Monitor for Rapid Detection of Seasonal Influenza among Outpatient Children. Journal of Infectious Diseases and Therapy, 2:163, 2014.[J-3]　Guanghao Sun, Shinji Gotoh, Zijun Zhao, Seokjin Kim, Satoshi Suzuki, Nevrez Imamoglu, Wenwei Yu, Takemi MatsuiVital-CUBE: A Non-contact Vital Sign Monitoring System Using Medical Radar for Ubiquitous Home Healthcare.Journal of Medical Imaging and Health Informatics, 4(6), 863-867, 2014[J-2]　Guanghao Sun, Tadafumi Saga, Takao Shimizu, Yukiya Hakozaki, Takemi MatsuiFever screening of seasonal influenza patients using a cost-effective thermopile array with small pixels for close-range thermometry.International Journal of Infectious Diseases, 25, 56-58, 2014 [J-1]　 Vinh Quang Nguyen, Shigeto Abe, Guanghao Sun, Ayumu Matsuoka, Hidekazu Nishimura, Masayuki Ishihara, Takemi Matsui Rapid screening for influenza using a multivariable logistic regression model to save labor at a clinic in Iwaki, Fukushima, Japan American Journal of Infection Control, 42(5), 551-553, 2014 [C-4]　Guanghao Sun, Vinh Quang Nguyen, Ayumu Matsuoka, Keisuke Miyata, Chris Chen, Akiko Ueda, Seokjin Kim, Yukiya Hakozaki, Shigeto Abe, Osamu Takei, Takemi MatsuiDesign an Easy-To-Use Infection Screening System for Non-Contact Monitoring of Vital-Signs to Prevent the Spread of Pandemic Diseases.The 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 4811-4814, 2014, Chicago, USA.[C-3]　Guanghao Sun, Takemi Matsui, Tadafumi Saga, Takao ShimizuA 48 x 47 Pixel Thermopile-based Infrared Array Sensor for Non-contact Measurement of Facial Skin Temperature.The 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 2014, Chicago, USA.[C-2]　Guanghao Sun, Takemi Matsui, Seokjin Kim, Osamu TakeiKAZEKAMO: An Infection Screening System Remote Monitoring of Multiple Vital-signs for Prevention of Pandemic Diseases.The IEEE 3rd Global Conference on Consumer Electronics, 2014, Tokyo, Japan.[C-1]　Guanghao Sun, Shinji Gotoh, Takemi MatsuiDevelopment of a Stand-alone Physiological Monitoring System for Noncontact Heart and Respiration Rate Measurements on Real-time Linux Platform.The 15th International Conference on Biomedical Engineering, IFMBE Proceedings, Vol. 43, 649-651, 2014, Singapore.　 2013 [J-2]　Guanghao Sun, Nguyen Quang Vinh, Shigeto Abe, Osamu Takei, Masami Sugamata, Takemi MatsuiA Portable Infection Screening System Designed for Onboard Entry Screening Based on Multi-parameter Vital Signs.International Journal of E-Health and Medical Communications (IJEHMC) Special Issue on Instrumentation, Communication, Information Technology, and Biomedical Engineering, 4(3), 20-35, 2013[J-1]　Guanghao Sun, Yukiya Hakozaki, Shigeto Abe, Osamu Takei, Takemi MatsuiA neural network-based infection screening system that uses vital signs and percutaneous oxygen saturation for rapid screening of patients with influenza.Health Special Issue on Advances in Avian Influenza and Treatment Research, 5(8A5), 7-12, 2013 [C-1]　Guanghao Sun, Nobujiro Abe, Youhei Sugiyama, Nguyen Quang Vinh,Kohei Nozaki, Yosuke Nakayama, Osamu Takei, Yukiya Hakozaki, Shigeto Abe, Takemi MatsuiDevelopment of an Infection Screening System for Entry Inspection at Airport Quarantine Stations Using Ear Temperature, Heart and Respiration Rates.The 35th Annual International Conference of the IEEE Engineering in Medicine and Biology Society , 6716-6719, 2013, Osaka, Japan. 2012 [J-1]　Guanghao Sun, Yukiya Hakozaki, Shigeto Abe, Nguyen Quang Vinh, Takemi MatsuiA novel infection screening method using a neural network and k-means clustering algorithm which can be applied for screening of unknown or unexpected infectious diseases.Journal of Infection, 65(6), 591-592, 2012[C-1] Guanghao Sun, Masayuki Kubota, Masayuki Kagawa, Nguyen Quang Vinh, Akira Kurita, Takemi MatsuiA screening method based on amplitude probability distribution analysis for detecting the disordered breathing using microwave radar respiration signals.Asia-Pacific Microwave Conference Proceedings (APMC), 37-39, 2012, Kaohsiung, Taiwan. 2011 [J-2] Shinji Gotoh, Guanghao Sun, Masayuki Kagawa, Takemi MatsuiA novel stress monitoring method through stress-induced respiratory alterations: non-contact measurement of respiratory V (T)/T (I) alterations induced by stressful sound using a 10 GHz microwave radar.Journal of Medical Engineering &amp; Technology, 35(8), 416-419, 2011 [J-1] Baoping Yuan, Guanghao Sun, Jose Gomez, Yu Ikemoto, Jose Gonzarlez, Chieko Murai, Rajendra Acharya U, Wenwei Yu, Shuichi Ino The Effect of an Auxiliary Stimulation on Motor Function Restoration by FES. Journal of Medical Systems, 35(5), 855-861, 2011. [C-2]　Guanghao Sun, Shigeto Abe, Osamu Takei, Yukiya Hakozaki, Takemi MatsuiA Novel Non-contact Infection Screening System Based on Self-Organizing Map with K-means Clustering.Communications in Computer and Information Science, 258, 125-132, 2011, Jesu Island, Korea.[C-1]　Guanghao Sun, Shigeto Abe, Osamu Takei, Takemi MatsuiA portable screening system for onboard entry screening at international airports using a microwave radar, reflective photo sensor and thermography.Instrumentation, Communications, Information Technology, and Biomedical Engineering (ICICI-BME) Conference Proceedings, 107-110, 2011, Bandung, Indonesia. https://sun-melab.com/Archive Sun, 03 Feb 2019 12:30:18 +0000 非接触生体計測　研究室　電気通信大学 https://sun-melab.com/Archive SUN LAB @ UEC ︎Innovation &amp; Sensitivity <img width="1449" height="1107" width_o="1449" height_o="1107" data-src="https://freight.cargo.site/t/original/i/049f62a957026b5bfdef2f7deb37e695998b17b156797223cb99a68c1164b573/NHTD.jpg" data-mid="39015467" 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<img width="704" height="916" width_o="704" height_o="916" data-src="https://freight.cargo.site/t/original/i/31c4381c347042c0c2403f96802f767efc3ae16c39ba3e80bb17f677298e11ed/in.jpg" data-mid="217386903" border="0" src="https://freight.cargo.site/w/704/i/31c4381c347042c0c2403f96802f767efc3ae16c39ba3e80bb17f677298e11ed/in.jpg" /> <img width="1066" height="1156" width_o="1066" height_o="1156" data-src="https://freight.cargo.site/t/original/i/f0989bb5b62645fbbb518ab78949b4cd8d6b7924eb0d7c4286e39c826fa9f3aa/se.jpg" data-mid="217386893" border="0" src="https://freight.cargo.site/w/1000/i/f0989bb5b62645fbbb518ab78949b4cd8d6b7924eb0d7c4286e39c826fa9f3aa/se.jpg" /> <img width="2574" height="2629" width_o="2574" height_o="2629" data-src="https://freight.cargo.site/t/original/i/84a10aceec6e8f301be94282a695f409aeeb379bf44a2aecd3a6bd3398856f98/f_ani.png" data-mid="246138548" border="0" 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data-src="https://freight.cargo.site/t/original/i/27d8ef1db3c919bfdfc645467086d2e0975add38fb78f951e7f1792cbc3e1576/SCAN0003.jpg" data-mid="173469338" border="0" src="https://freight.cargo.site/w/1000/i/27d8ef1db3c919bfdfc645467086d2e0975add38fb78f951e7f1792cbc3e1576/SCAN0003.jpg" /> <img width="2339" height="1648" width_o="2339" height_o="1648" data-src="https://freight.cargo.site/t/original/i/f616c60aa8ee032c33c252e5c86c3467ac73a75596e612790b8d2600be8816a3/GCCE.2022.Award.jpg" data-mid="173469186" border="0" src="https://freight.cargo.site/w/1000/i/f616c60aa8ee032c33c252e5c86c3467ac73a75596e612790b8d2600be8816a3/GCCE.2022.Award.jpg" /> <img width="1576" height="1107" src="data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7" data-src="//freight.cargo.site/t/original/i/347a2a528eb573a40d1a4af4dc9df5e47ce7af524ef2924c83e9deb8fc450ecc/Critical-Care.jpg"> https://sun-melab.com/Open-Datasets Fri, 17 Dec 2021 13:54:16 +0000 非接触生体計測　研究室　電気通信大学 https://sun-melab.com/Open-Datasets SUN LAB @ UEC ︎Informations Open Datasets for Bio-signal 電気通信大学・孫光鎬研究室において計測された、生体信号データセットを公開します。 生体計測研究者がアルゴリズム開発にご活用いただければ幸いです。 本データセットに関する問い合わせは、Guanghao.Sun[at]uec.ac.jp Dataset-1:&nbsp; 非接触レーダから計測された呼吸・心拍信号 作成者：　Keisuke Edanami, Guanghao Sun. 説　明：　Medical radar signal dataset for non-contact respiration and heart rate measurement. Data in Brief, 2021. https://doi.org/10.1016/j.dib.2021.107724 Medical radars remotely measure the periodic movements of the chest wall induced by breathing and heartbeat and have been widely recognized in healthcare. To the best of our knowledge, no well-characterized medical radar datasets are shared publicly. Therefore, we provide non-contact respiratory and cardiac signal datasets measured using a medical radar and simultaneously measured reference signals using electrocardiogram (ECG) and respiratory belt transducer. The datasets were collected from nine healthy subjects using 24.25 GHz and 10.525 GHz Doppler radars at a physiological laboratory in Japan. Furthermore, we generated MATLAB code to pre-process the signals and calculate the respiratory and heart rates. The datasets generated could be reused by biomedical researchers to investigate the signal-processing algorithm for non-contact vital sign measurement. 場　所：　https://dx.doi.org/10.17632/6rp6wrd2pr.2 <img width="2500" height="1307" width_o="2500" height_o="1307" data-src="https://freight.cargo.site/t/original/i/6756a9c20a18f8f428980984bc841155a859b91ad791f4bf9b121e6f489e23d8/1-s2.0-S2352340921009999-gr2_lrg.jpg" data-mid="127675863" border="0" data-scale="51" src="https://freight.cargo.site/w/1000/i/6756a9c20a18f8f428980984bc841155a859b91ad791f4bf9b121e6f489e23d8/1-s2.0-S2352340921009999-gr2_lrg.jpg" /> Dataset-2: 非接触レーダから計測された呼吸・心拍信号---イソフルラン麻酔時のラットの計測データ作成者：　Guanghao Sun, Masaki Kurosawa, Yoshiki Ninomiya, Kohei Baba, Yutaka Kano 説　明：　Updating ”Medical Radar Signal Dataset for Non-Contact Respiration and Heart Rate Measurement” with Expanded Data on Laboratory Rats under Isoflurane Anesthesia. Data in Brief, 2024. The dataset presented in this article is an update of the dataset provided by K. Edanami and G. Sun entitled “Medical Radar Signal Dataset for Non-Contact Respiration and Heart Rate Measurement”. The new dataset includes radar signals and reference laser measurements from experiments conducted on anesthetized rats. The rats were placed in a prone position, and isoflurane was administered in varying concentrations to maintain anesthesia. A 24 GHz radar and laser sensor were positioned above the rats to capture the necessary data. The dataset contains time-stamped radar I and Q channel signals as well as laser measurements. Additionally, MATLAB code for signal visualization and FFT (fast Fourier transform)-based respiration rate estimation is provided. This comprehensive dataset and accompanying MATLAB code facilitate the advancement of non-invasive respiration measurement techniques in small animals, with potential applications in biomedical research. 場　所：　https://data.mendeley.com/datasets/swk27btvgd/1 https://sun-melab.com/Contact Tue, 05 Feb 2019 15:11:52 +0000 非接触生体計測　研究室　電気通信大学 https://sun-melab.com/Contact 交通・学内マップ 連絡先 〒182-8585 東京都 調布市 調布ヶ丘 1-5-1 電気通信大学 西２号館 205号室 <img width="669" height="486" width_o="669" height_o="486" data-src="https://freight.cargo.site/t/original/i/705c1a883e04bb3e34c3aa84307050708ee1df296e2c6dcb6c3ed996f31e5d3b/pct01.gif" data-mid="217441580" border="0" src="https://freight.cargo.site/w/669/i/705c1a883e04bb3e34c3aa84307050708ee1df296e2c6dcb6c3ed996f31e5d3b/pct01.gif" /><img width="670" height="576" width_o="670" height_o="576" data-src="https://freight.cargo.site/t/original/i/5c57e2086bd0db5209c1b12a68f9bd24ddbae27c52aad62e1a410c64dd452450/pct03.jpg" data-mid="217441582" border="0" src="https://freight.cargo.site/w/670/i/5c57e2086bd0db5209c1b12a68f9bd24ddbae27c52aad62e1a410c64dd452450/pct03.jpg" /><img width="1714" height="1607" width_o="1714" height_o="1607" data-src="https://freight.cargo.site/t/original/i/e16c4550b3343bfabbbb0c7939517612be6d44637c795014b51a6c444513f90b/mapdata.png" data-mid="66258486" border="0" data-scale="64" src="https://freight.cargo.site/w/1000/i/e16c4550b3343bfabbbb0c7939517612be6d44637c795014b51a6c444513f90b/mapdata.png" /> https://sun-melab.com/Project-Nav Mon, 04 Feb 2019 14:35:29 +0000 非接触生体計測　研究室　電気通信大学 https://sun-melab.com/Project-Nav Index &nbsp; &nbsp; Next ︎