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"Drawing on 15 years of experience in the development and use of wearable sensors in sports science, this book bridges the gap between technical research and the widespread adoption of inertial sensors in biomechanical assessment and ambulatory studies of locomotion. It offers a no-nonsense guide to using inertial sensors for readers from the sports science disciplines who may be unfamiliar with the terms, concepts and approaches that lead to these sensors successful use. At the same time, the book introduces readers with a technical background, e.g. in engineering, to sport science methodologies that can provide valuable insights into the use of sensors in a practical environment that extends well beyond bench testing. "

"Aimed to be a snapshot of progress in the development of a variety of sensors, used in different application fields, this postgraduate-level book combines the work of leading academic authors. The authors of each chapter describe the principles of operation, characteristics and applications of the sensor-type under consideration, but in addition feature recent advances and prospects for future development. These are areas where advances are ongoing so that there is considerable scope for future development activity. Such sensors are applied in many and varied fields of science, measurement and technology."

"ABSTRAKPenggunaan peralatan telemedis memiliki kelebihan karena kebutuhan daya yang kecil dan dapat digunakan secara portabel. Salah satu alternatif pemilihan bahan antena untuk sistem wearable applications adalah dengan menggunakan antena tekstil. Pada tesis ini dilakukan rancang bangun antena tekstiltipe magnetik pada frekuensi 2,45GHz dengan menggunakan desain yang terinspirasi dari motif batik mega mendung (batik Cirebon), serta penggunaan model tubuh manusia berupa phantom untuk mengetahui pengaruh tubuh manusia terhadap kinerja antena yang diletakkan di dekatnya. Dalam tesis ini, dirancang dua tipe antena yang bersifat magnetik yaitu microstrip spiral antenna (tipe-1) dan microstrip spiral slot antenna (tipe-2) menggunakan metode finite integration technique (FIT).Berdasarkan analisis dari hasil simulasi, antena tipe-1 dantipe-2 memilikikecenderungan sebagai antena magnetik, dimana hal ini dapat dilihat dari besaranintensitas medan listrik (E) dan medan magnet (H) pada area di sekitar medan dekat (near field) antena. Hasil simulasi dan pengukuran menunjukkan hasil unjuk kerja antena tipe-1 memiliki frekuensi resonansi di 2,45 GHz,dengan nilai|S11|berturut-turut24,15 dB dan12,09 dBdi udara bebas.Bandwidth impedansi (VSWR  2)sebesar 27,10 MHz (1,1%) dan 40 MHz (1,6%) berturut-turut untuk simulasi dan pengukuran.Gain antena didapatkan 0,96 dBi (simulasi) dan 0,42 dBi (pengukuran).Ketika antena tipe-1 ini diletakkan di dekat model tubuh manusia (phantom) didapatkan nilai specific absorption rate (SAR) sebesar 0,00083 W/Kg pada standar 10g rata-rata jaringan tubuhdengan daya masukan 1 mW. Pada antena tipe-2, hasil simulasi dan pengukuran menunjukkan unjuk kerja |S11| berturut-tutut sebesar -21,61 dB dan -24,19 dB. Bandwidth impedansi sebesar 52,90 MHz (2,1%) dan 43 MHz (1,76%) berturut-turut untuk simulasi dan pengukuran. Gain antena pada simulasi 10,68 dBi, sedangkan hasil pengukuran didapatkan 12,73 dBi karena fabrikasi antena dikerjakan secara manual. Simulasi SAR memperlihatkan nilai 0,03029 W/Kg (10g rata-rata jaringan tubuh) jika diberikan daya masukan 1 mW.

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ABSTRACTCurrently, the use of wireless telemedicine equipment is greatly developed due to some advantages such as low power and its portability. To be used for wearable applications, telemedicine requires a suitable device that is comfortable for attaching on the human body. To do that, textile-type device is usually proposed, of which a textile antenna is required. This thesis proposes a magnetic-type textile antenna at 2.45 GHz, where the antenna design is basically inspired by traditional Cirebon batik style called mega mendung. The proposed antenna is put in the proximity of the human body model (called a phantom), in order to investigate the body effect on the antenna performances. In this thesis, two structures of magnetic antenna, namely a microstrip spiral antenna as an antenna type-1 and a microstrip spiral slot antenna as type-2, are numerically analyzed by the use of finite integration technique (FIT). According to the simulation results, both of the proposed antennas tend to have magnetic properties as the magnetic-type antenna has, which it can be seen from the electric and magnetic fields intensity within the near field region. The simulated and measured results show that the antenna type-1 resonates at 2.45 GHz in free space with |S11| is -24.15 dB and -12.09 dB, respectively. The impedance bandwidth is 27.10 MHz (1.1%) and 40 MHz (1.6%) for simulated and measured result, respectively. The antenna gain is 0.96 dBi (simulation) and 0.42 dBi (measurement) without any human body is present. When the human body model is put in proximity to the antenna and 1 mW of input power is given to the antenna, very small value of specific absorption rate (SAR) by 0.00083 W/Kg is obtained for 10g-tissue averaged standard. As for antenna type-2, the simulated and measured results show that it resonates at 2.45 GHz in free space with |S11| is -21.61 dB and -24.19 dB, respectively. The impedance bandwidth is 52.90 MHz (2.1%) and 43 MHz (1.76%) for simulated and measured result, respectively. The antenna gain is 10.68 dBi for simulation and 12.73 dBi for measurement since the fabricated antenna is manually manufactured. The simulated SAR value by 0.03029 W/Kg (10g-tissue averaged standard) is obtained when the input power of 1 mW is given"

"ABSTRAKTeknologi wearable device sangat memiliki dampak yang besar di bidang kesehatan dan kebugaran. Wearable device ini bisa dimanfaatkan oleh sebuah instansi atau perusahaan guna memantau kondisi kesehatan atau kebugaran pekerjanya. Untuk saat ini, aplikasi yang tersedia di pasar hanya mendukung untuk dapat terhubung dengan perangkat masing-masing vendornya saja dan juga setiap pengguna hanya bisa terhubung ke satu jenis device. Diperlukan suatu aplikasi yang dapat terhubung dengan lebih dari satu perangkat dan jenis wearable device serta mendukung untuk perangkat dari berbagai vendor. Aplikasi tersebut dibuat dengan menggabungkan API dari berbagai jenis vendor dan dapat menghubungkan smartphone dengan wearable melalui Bluetooth Low Energy. Aplikasi dapat melakukan pengukuran detak jantung dengan tingkat akurasi sebesar 100 untuk Mi Band 2 dan Mi Band 3 serta 96.16 untuk Amazfit Cor, pengukuran jumlah langkah dengan akurasi sebesar 99.28 untuk Mi Band 2 dan 99.93 untuk Amazfit Cor serta pengukuran total waktu tidur dengan akurasi sebesar 72.78 untuk Mi Band 2 dan 69.49 untuk Amazfit Cor.

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ABSTRACTWearable device technology has a huge impact on health and fitness. This wearable device can be used by an agency or company to monitor the health or fitness conditions of its workers. For now, the applications available on the market only support being able to connect to each vendors device and each user can only connect to one type of device. An application is needed that can be connected with more than one device and type of wearable device and supports for devices from various vendors. The application is created by combining APIs from various types of vendors and can connect smartphones with wearable via Bluetooth Low Energy. Applications can measure heart rate with an accuracy of 100 for Mi Band 2 and Mi Band 3 and 96.16 for Amazfit Cor, measuring the number of steps with an accuracy of 99.28 for Mi Band 2 and 99.93 for Amazfit Cor and measuring total sleep time with an accuracy of 72.78 for Mi Band 2 and 69.49 for Amazfit Cor."

"This book covers the fundamental developments of plasmonic nanosenor design over the last few years. Jan Becker addresses the relevant theoretical concepts and then applies these to discuss the properties and trends in nanoparticles of various shapes and sizes. The first discovery Jan makes in his PhD research is that there is an optimal shape for plasmonic nanoparticles used for sensing purposes. In further chapters he goes on to describe novel experimental methods to use plasmonic nanoparticles for molecular sensing. Many of the experiments described in this thesis."