TY - GEN
T1 - Non-contact UWB radar technology to assess tremor
AU - Blumrosen, G.
AU - Uziel, M.
AU - Rubinsky, B.
AU - Porrat, D.
PY - 2010
Y1 - 2010
N2 - This work quantifies and analyzes tremor using Ultra Wide Band (UWB) radio technology. The UWB technology provides a new technology for non contact tremor assessment with extremely low radiation and penetration through walls. Tremor is the target symptom in the treatment of many neurological disorders such as Parkinson's disease (PD), midbrain tremor, essential tremor (ET) and epilepsy. The common instrumental approaches for the assessment of tremor are motion capture devices and video tracking systems. The new tremor acquisition system is based on transmission of a wideband electromagnetic signal with extremely low radiation, and analysis of the received signal composed of many propagation paths reflected from the patient and its surroundings. An efficient UWB radar detection technique adapted to tremor detection is developed. Periodicity in the time of arrival of the received signal is detected to obtain tremor characteristics. For a feasibility test we built an UWB acquisition system and examined the performance with an arm model that fluctuated in the range of clinical tremor frequencies (3-12 Hz). A devlpoment of this work can lead to a monitoring system installed at any home, hospital or school to continuously asses and report tremor conditions during daily life activities.
AB - This work quantifies and analyzes tremor using Ultra Wide Band (UWB) radio technology. The UWB technology provides a new technology for non contact tremor assessment with extremely low radiation and penetration through walls. Tremor is the target symptom in the treatment of many neurological disorders such as Parkinson's disease (PD), midbrain tremor, essential tremor (ET) and epilepsy. The common instrumental approaches for the assessment of tremor are motion capture devices and video tracking systems. The new tremor acquisition system is based on transmission of a wideband electromagnetic signal with extremely low radiation, and analysis of the received signal composed of many propagation paths reflected from the patient and its surroundings. An efficient UWB radar detection technique adapted to tremor detection is developed. Periodicity in the time of arrival of the received signal is detected to obtain tremor characteristics. For a feasibility test we built an UWB acquisition system and examined the performance with an arm model that fluctuated in the range of clinical tremor frequencies (3-12 Hz). A devlpoment of this work can lead to a monitoring system installed at any home, hospital or school to continuously asses and report tremor conditions during daily life activities.
KW - Tremor
KW - UWB
KW - detection techniques
KW - human radar signature
UR - https://www.scopus.com/pages/publications/77957555820
U2 - 10.1007/978-3-642-13039-7_123
DO - 10.1007/978-3-642-13039-7_123
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AN - SCOPUS:77957555820
SN - 9783642130380
T3 - IFMBE Proceedings
SP - 490
EP - 493
BT - XII Mediterranean Conference on Medical and Biological Engineering and Computing 2010, MEDICON 2010
T2 - 12th Mediterranean Conference on Medical and Biological Engineering and Computing, MEDICON 2010
Y2 - 27 May 2010 through 30 May 2010
ER -