Christiaan Stevens scite author profile

Christiaan Stevens

3Publications

28Citation Statements Received

74Citation Statements Given

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Affiliations

Ghent University

Publications

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Flexible dual‐diversity wearable wireless node integrated on a dual‐polarised textile patch antenna

Vanveerdeghem

Torre

Stevens

et al. 2014

IET Science, Measurement & Technology

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Abstract-A new textile wearable wireless node, for operation in the 2.45GHz ISM band, is proposed. It consists of a dualpolarized textile patch antenna with integrated microcontroller, sensor, memory, and transceiver with receive diversity. Integrated into a garment, the flexible unit may serve for fall detection, as well as for patient or rescue-worker monitoring. Fragile and lossy interconnections are eliminated. They are replaced by very short radio-frequency signal paths in the antenna feed plane, reducing electromagnetic compatibility and signal integrity problems. The compact and flexible module combines sensing and wireless channel monitoring functionality with reliable and energy-efficient off-body wireless communication capability, by fully exploiting dual polarization diversity. By integrating a battery, a fully autonomous and flexible system is obtained. This novel textile wireless node was validated, both in flat and bent state, in the anechoic chamber, assessing the characteristics of the integrated system in free-space conditions. Moreover, its performance was verified in various real-world conditions, integrated into a firefighter garment, and used as an autonomous body-centric measurement device.

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Synchronous Wearable Wireless Body Sensor Network Composed of Autonomous Textile Nodes

Vanveerdeghem

Torre

Stevens

et al. 2014

Sensors

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A novel, fully-autonomous, wearable, wireless sensor network is presented, where each flexible textile node performs cooperative synchronous acquisition and distributed event detection. Computationally efficient situational-awareness algorithms are implemented on the low-power microcontroller present on each flexible node. The detected events are wirelessly transmitted to a base station, directly, as well as forwarded by other on-body nodes. For each node, a dual-polarized textile patch antenna serves as a platform for the flexible electronic circuitry. Therefore, the system is particularly suitable for comfortable and unobtrusive integration into garments. In the meantime, polarization diversity can be exploited to improve the reliability and energy-efficiency of the wireless transmission. Extensive experiments in realistic conditions have demonstrated that this new autonomous, body-centric, textile-antenna, wireless sensor network is able to correctly detect different operating conditions of a firefighter during an intervention. By relying on four network nodes integrated into the protective garment, this functionality is implemented locally, on the body, and in real time. In addition, the received sensor data are reliably transferred to a central access point at the command post, for more detailed and more comprehensive real-time visualization. This information provides coordinators and commanders with situational awareness of the entire rescue operation. A statistical analysis of measured on-body node-to-node, as well as off-body person-to-person channels is included, confirming the reliability of the communication system.

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Assessment of the Antineoplastic Potential of Chalcones in Animal Models

Roman¹,

Heugebaert²,

Bracke³

et al. 2012

CMC

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