The Experts below are selected from a list of 327 Experts worldwide ranked by ideXlab platform
Dominique Martinez - One of the best experts on this subject based on the ideXlab platform.
-
A robust spike-based gas Identification Technique for SnO2 gas sensors
2009 IEEE International Symposium on Circuits and Systems, 2009Co-Authors: Kwan Ting Ng, Hung Tat Chen, Farid Boussaid, Amine Bermak, Dominique MartinezAbstract:This paper presents a robust gas Identification Technique for tin oxide (SnO2) gas sensors. The proposed Technique generates a unique spike pattern or signature for each sensed gas, irrespective of its concentration. The proposed gas Identification Technique is insensitive to drift in the sensor baseline resistance. Furthermore, its calibration requires a single measurement to be made for each targeted gas. The proposed spike-based gas Identification Technique has been implemented in TSMC 0.18 mum CMOS technology and validated using experimental data from a fabricated in-house 4 times 4 SnO2 gas sensor array. Reported results reveal a 10% increase in correct gas detection rate.
-
ISCAS - A robust spike-based gas Identification Technique for SnO 2 gas sensors
2009 IEEE International Symposium on Circuits and Systems, 2009Co-Authors: Kwan Ting Ng, Hung Tat Chen, Farid Boussaid, Amine Bermak, Dominique MartinezAbstract:This paper presents a robust gas Identification Technique for tin oxide (SnO 2 ) gas sensors. The proposed Technique generates a unique spike pattern or signature for each sensed gas, irrespective of its concentration. The proposed gas Identification Technique is insensitive to drift in the sensor baseline resistance. Furthermore, its calibration requires a single measurement to be made for each targeted gas. The proposed spike-based gas Identification Technique has been implemented in TSMC 0.18µm CMOS technology and validated using experimental data from a fabricated in-house 4×4 SnO 2 gas sensor array. Reported results reveal a 10% increase in correct gas detection rate.
Kwan Ting Ng - One of the best experts on this subject based on the ideXlab platform.
-
A robust spike-based gas Identification Technique for SnO2 gas sensors
2009 IEEE International Symposium on Circuits and Systems, 2009Co-Authors: Kwan Ting Ng, Hung Tat Chen, Farid Boussaid, Amine Bermak, Dominique MartinezAbstract:This paper presents a robust gas Identification Technique for tin oxide (SnO2) gas sensors. The proposed Technique generates a unique spike pattern or signature for each sensed gas, irrespective of its concentration. The proposed gas Identification Technique is insensitive to drift in the sensor baseline resistance. Furthermore, its calibration requires a single measurement to be made for each targeted gas. The proposed spike-based gas Identification Technique has been implemented in TSMC 0.18 mum CMOS technology and validated using experimental data from a fabricated in-house 4 times 4 SnO2 gas sensor array. Reported results reveal a 10% increase in correct gas detection rate.
-
ISCAS - A robust spike-based gas Identification Technique for SnO 2 gas sensors
2009 IEEE International Symposium on Circuits and Systems, 2009Co-Authors: Kwan Ting Ng, Hung Tat Chen, Farid Boussaid, Amine Bermak, Dominique MartinezAbstract:This paper presents a robust gas Identification Technique for tin oxide (SnO 2 ) gas sensors. The proposed Technique generates a unique spike pattern or signature for each sensed gas, irrespective of its concentration. The proposed gas Identification Technique is insensitive to drift in the sensor baseline resistance. Furthermore, its calibration requires a single measurement to be made for each targeted gas. The proposed spike-based gas Identification Technique has been implemented in TSMC 0.18µm CMOS technology and validated using experimental data from a fabricated in-house 4×4 SnO 2 gas sensor array. Reported results reveal a 10% increase in correct gas detection rate.
Hung Tat Chen - One of the best experts on this subject based on the ideXlab platform.
-
A robust spike-based gas Identification Technique for SnO2 gas sensors
2009 IEEE International Symposium on Circuits and Systems, 2009Co-Authors: Kwan Ting Ng, Hung Tat Chen, Farid Boussaid, Amine Bermak, Dominique MartinezAbstract:This paper presents a robust gas Identification Technique for tin oxide (SnO2) gas sensors. The proposed Technique generates a unique spike pattern or signature for each sensed gas, irrespective of its concentration. The proposed gas Identification Technique is insensitive to drift in the sensor baseline resistance. Furthermore, its calibration requires a single measurement to be made for each targeted gas. The proposed spike-based gas Identification Technique has been implemented in TSMC 0.18 mum CMOS technology and validated using experimental data from a fabricated in-house 4 times 4 SnO2 gas sensor array. Reported results reveal a 10% increase in correct gas detection rate.
-
ISCAS - A robust spike-based gas Identification Technique for SnO 2 gas sensors
2009 IEEE International Symposium on Circuits and Systems, 2009Co-Authors: Kwan Ting Ng, Hung Tat Chen, Farid Boussaid, Amine Bermak, Dominique MartinezAbstract:This paper presents a robust gas Identification Technique for tin oxide (SnO 2 ) gas sensors. The proposed Technique generates a unique spike pattern or signature for each sensed gas, irrespective of its concentration. The proposed gas Identification Technique is insensitive to drift in the sensor baseline resistance. Furthermore, its calibration requires a single measurement to be made for each targeted gas. The proposed spike-based gas Identification Technique has been implemented in TSMC 0.18µm CMOS technology and validated using experimental data from a fabricated in-house 4×4 SnO 2 gas sensor array. Reported results reveal a 10% increase in correct gas detection rate.
Amine Bermak - One of the best experts on this subject based on the ideXlab platform.
-
A robust spike-based gas Identification Technique for SnO2 gas sensors
2009 IEEE International Symposium on Circuits and Systems, 2009Co-Authors: Kwan Ting Ng, Hung Tat Chen, Farid Boussaid, Amine Bermak, Dominique MartinezAbstract:This paper presents a robust gas Identification Technique for tin oxide (SnO2) gas sensors. The proposed Technique generates a unique spike pattern or signature for each sensed gas, irrespective of its concentration. The proposed gas Identification Technique is insensitive to drift in the sensor baseline resistance. Furthermore, its calibration requires a single measurement to be made for each targeted gas. The proposed spike-based gas Identification Technique has been implemented in TSMC 0.18 mum CMOS technology and validated using experimental data from a fabricated in-house 4 times 4 SnO2 gas sensor array. Reported results reveal a 10% increase in correct gas detection rate.
-
ISCAS - A robust spike-based gas Identification Technique for SnO 2 gas sensors
2009 IEEE International Symposium on Circuits and Systems, 2009Co-Authors: Kwan Ting Ng, Hung Tat Chen, Farid Boussaid, Amine Bermak, Dominique MartinezAbstract:This paper presents a robust gas Identification Technique for tin oxide (SnO 2 ) gas sensors. The proposed Technique generates a unique spike pattern or signature for each sensed gas, irrespective of its concentration. The proposed gas Identification Technique is insensitive to drift in the sensor baseline resistance. Furthermore, its calibration requires a single measurement to be made for each targeted gas. The proposed spike-based gas Identification Technique has been implemented in TSMC 0.18µm CMOS technology and validated using experimental data from a fabricated in-house 4×4 SnO 2 gas sensor array. Reported results reveal a 10% increase in correct gas detection rate.
Farid Boussaid - One of the best experts on this subject based on the ideXlab platform.
-
A robust spike-based gas Identification Technique for SnO2 gas sensors
2009 IEEE International Symposium on Circuits and Systems, 2009Co-Authors: Kwan Ting Ng, Hung Tat Chen, Farid Boussaid, Amine Bermak, Dominique MartinezAbstract:This paper presents a robust gas Identification Technique for tin oxide (SnO2) gas sensors. The proposed Technique generates a unique spike pattern or signature for each sensed gas, irrespective of its concentration. The proposed gas Identification Technique is insensitive to drift in the sensor baseline resistance. Furthermore, its calibration requires a single measurement to be made for each targeted gas. The proposed spike-based gas Identification Technique has been implemented in TSMC 0.18 mum CMOS technology and validated using experimental data from a fabricated in-house 4 times 4 SnO2 gas sensor array. Reported results reveal a 10% increase in correct gas detection rate.
-
ISCAS - A robust spike-based gas Identification Technique for SnO 2 gas sensors
2009 IEEE International Symposium on Circuits and Systems, 2009Co-Authors: Kwan Ting Ng, Hung Tat Chen, Farid Boussaid, Amine Bermak, Dominique MartinezAbstract:This paper presents a robust gas Identification Technique for tin oxide (SnO 2 ) gas sensors. The proposed Technique generates a unique spike pattern or signature for each sensed gas, irrespective of its concentration. The proposed gas Identification Technique is insensitive to drift in the sensor baseline resistance. Furthermore, its calibration requires a single measurement to be made for each targeted gas. The proposed spike-based gas Identification Technique has been implemented in TSMC 0.18µm CMOS technology and validated using experimental data from a fabricated in-house 4×4 SnO 2 gas sensor array. Reported results reveal a 10% increase in correct gas detection rate.
