Abstract
Ultra-wideband (UWB) radar has been widely used for detecting human physiological signals (respiration, movement, etc.) in the fields of rescue, security, and medicine owing to its high penetrability and range resolution. In these applications, especially in rescue after disaster (earthquake, collapse, mine accident, etc.), the presence, number, and location of the trapped victims to be detected and rescued are the key issues of concern. Ample research has been done on the first issue, whereas the identification and localization of multi-targets remains a challenge. False positive and negative identification results are two common problems associated with the detection of multiple stationary human targets. This is mainly because the energy of the signal reflected from the target close to the receiving antenna is considerably stronger than those of the targets at further range, often leading to missing or false recognition if the identification method is based on the energy of the respiratory signal. Therefore, a novel method based on cross-correlation is proposed in this paper that is based on the relativity and periodicity of the signals, rather than on the energy. The validity of this method is confirmed through experiments using different scenarios; the results indicate a discernible improvement in the detection precision and identification of the multiple stationary targets.
Highlights
Ultra-wideband (UWB) radar is a special type of radar that is widely used for the detection and localization of people in critical situations and environments [1,2]
Because the heart motion is so weaker than respiratory motion that the detection of heart motion is of less importance
The energy of electromagnetic waves decreases with the increasing of the distance; the energy of the electromagnetic waves reaching the farther target is inevitably subtler than those reaching the closer target [20]
Summary
Ultra-wideband (UWB) radar is a special type of radar that is widely used for the detection and localization of people in critical situations and environments [1,2]. A novel target detection and identification method is proposed in this paper, mainly based on the property that there is a high correlation area behind channels, a correlation analysis is used to restrain the noises and distinguish the human targets. A novel the false negatives and positives inisaproposed multiple stationary human detection are detection and identification method in this paper, mainly basedtarget on the property thatscenario there is a high correlation area behind each target, and the count and location of the targets can be confirmed resolved effectively. The performance of this new method will be proved by experiments using by scenarios.
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