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Edward Gatt
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2020 – today
- 2021
- [c53]Matthew Meli, Edward Gatt, Owen Casha, Ivan Grech, Joseph Micallef:
A Novel Modular Low Power and Low Cost IoT Wireless Sensor Node for Air Quality Monitoring. CSCI 2021: 1476-1481 - [c52]Russell Farrugia, Barnaby Portelli, Ivan Grech, Joseph Micallef, Owen Casha, Edward Gatt:
A Compact Near-Infrared Spectrometer based on an FR4 Electromagnetic Scanning Grating. ICECS 2021: 1-5 - [c51]Francarl Galea, Owen Casha, Ivan Grech, Edward Gatt, Joseph Micallef:
Experimental Measurements of an Integrated Hysteretic Controlled Regulating Buck Converter with Capacitively Coupled Bootstrapping. ICECS 2021: 1-6 - [c50]Clive Seguna, Edward Gatt, Ivan Grech, Owen Casha, Giacinto De Cataldo:
Development of an New ASIC based, Multi-channel Data Acquisition and Real-Time Processing System. ICIT 2021: 779-782 - 2020
- [c49]Matthew Meli, Edward Gatt, Owen Casha, Ivan Grech, Joseph Micallef:
A Novel Low Power and Low Cost IoT Wireless Sensor Node for Air Quality Monitoring. ICECS 2020: 1-4 - [c48]Barnaby Portelli, Ivan Grech, Joseph Micallef, Russell Farrugia, Owen Casha, Edward Gatt:
Resonant micro-mirror electrical characterisation towards tunable digital drive circuit design. ICECS 2020: 1-4 - [c47]Francarl Galea, Owen Casha, Ivan Grech, Edward Gatt, Joseph Micallef:
An Ultra Low Power CMOS MPPT Power Conditioning Circuit for Energy Harvesters. ISCAS 2020: 1-5
2010 – 2019
- 2019
- [j3]Jeremy Scerri, Ivan Grech, Edward Gatt, Owen Casha:
Dimensional optimisation of a MEMS BPSK to ASK converter in SOIMUMPs. Integr. 67: 19-32 (2019) - [j2]Edward Gatt, Ali Ibrahim, Maurizio Valle, Andrea De Marcellis, Hadi Heidari:
Selected Articles from the NGCAS 2018 Conference. J. Low Power Electron. 15(1): 27-29 (2019) - [c46]Jordan Lee Gauci, Edward Gatt, Owen Casha, Giacinto De Cataldo, Ivan Grech, Joseph Micallef:
Particle Swarm Optimization of a Rail-to-Rail Delay Element for Maximum Linearity. CoDIT 2019: 420-424 - [c45]Jordan Lee Gauci, Edward Gatt, Owen Casha, Giacinto De Cataldo, Ivan Grech, Joseph Micallef:
A Novel Delay Generator for the Triggering of Particle Detectors at the CERN LHC. PRIME 2019: 33-36 - 2018
- [c44]Jordan Lee Gauci, Edward Gatt, Owen Casha, Giacinto De Cataldo, Ivan Grech, Joseph Micallef:
Design of a Quasi-Linear Rail-to-Rail Delay Element with an Extended Programmable Range. ICECS 2018: 265-268 - [c43]Clive Seguna, Edward Gatt, Jordan Lee Gauci, Giacinto De Cataldo, Ivan Grech, Owen Casha:
A New FPGA-Based Controller Card for the Optimisation of the Front-End Readout Electronics of Charged-Particle Veto Detector at ALICE. NGCAS 2018: 45-48 - [c42]Francarl Galea, Owen Casha, Ivan Grech, Edward Gatt, Joseph Micallef:
Ultra Low Frequency Low Power CMOS Oscillators for MPPT and Switch Mode Power Supplies. PRIME 2018: 121-124 - [c41]Jordan Lee Gauci, Edward Gatt, Owen Casha, Giacinto De Cataldo, Ivan Grech, Joseph Micallef:
On the Design of a Linear Delay Element for the Triggering Module at CERN LHC. PRIME 2018: 133-136 - [c40]Jeremy Scerri, Barnaby Portelli, Ivan Grech, Edward Gatt, Owen Casha:
Exploiting nonlinearities to improve the linear region in an electrostatic MEMS demodulator. PRIME 2018: 209-212 - 2017
- [c39]Karl Buhagiar, Owen Casha, Ivan Grech, Edward Gatt, Joseph Micallef:
Hardware implementation of efficient path reconstruction for the Smith-Waterman algorithm. CoDIT 2017: 1113-1116 - [c38]Josef Magri, Owen Casha, Keith Bugeja, Ivan Grech, Edward Gatt:
HLTB design for high-speed multi-FPGA pipelines. ICECS 2017: 182-185 - [c37]Francarl Galea, Owen Casha, Ivan Grech, Edward Gatt, Joseph Micallef:
A CMOS MPPT power conditioning circuit for energy harvesters. ICECS 2017: 442-445 - [c36]Jeremy Scerri, Ivan Grech, Edward Gatt, Owen Casha:
A MEMS low-IF IQ-mixer in metal MUMPs: Modelling and simulation. ICECS 2017: 454-457 - [c35]Jordan Lee Gauci, Edward Gatt, Giacinto De Cataldo, Owen Casha, Ivan Grech:
An Analytical Model of the Delay Generator for the Triggering of Particle Detectors at CERN LHC. NGCAS 2017: 69-72 - 2016
- [c34]Josef Magri, Ivan Grech, Owen Casha, Edward Gatt, Joseph Micallef:
Design of CMOS front-end circuitry for the acquisition of biopotential signals. ICECS 2016: 161-164 - 2014
- [c33]Michelle Cutajar, Edward Gatt, Ivan Grech, Owen Casha, Joseph Micallef:
Design of a hardware-based discrete wavelet transform architecture for phoneme recognition. ISCCSP 2014: 554-557 - 2013
- [j1]Michelle Cutajar, Edward Gatt, Ivan Grech, Owen Casha, Joseph Micallef:
Comparative study of automatic speech recognition techniques. IET Signal Process. 7(1): 25-46 (2013) - [c32]Michelle Cutajar, Edward Gatt, Ivan Grech, Owen Casha, Joseph Micallef:
Discrete wavelet transforms with multiclass SVM for phoneme recognition. EUROCON 2013: 1695-1700 - [c31]Michelle Cutajar, Edward Gatt, Ivan Grech, Owen Casha, Joseph Micallef:
Hardware-based support vector machine for phoneme classification. EUROCON 2013: 1701-1708 - [c30]Ansel Briffa, Edward Gatt, Joseph Micallef, Ivan Grech, Owen Casha, Jean Marie Darmanin:
Area minimization of a three-axis separate mass capacitive accelerometer using the ThELMA process. EUROCON 2013: 2094-2099 - [c29]Jean Marie Darmanin, Ivan Grech, Joseph Micallef, Edward Gatt, Owen Casha, Ansel Briffa:
Design consideration for three-axis MEMS accelerometers using an asymmetric proof mass. EUROCON 2013: 2100-2105 - [c28]Daniel Zammit, Owen Casha, Ivan Grech, Edward Gatt, Joseph Micallef:
A MEMS resonator tank for an RF VCO application. ICECS 2013: 819-822 - 2012
- [c27]Victoria Pisani, Ivan Grech, Owen Casha, Edward Gatt:
Low-voltage CMOS current feedback amplifier. ICECS 2012: 5-8 - [c26]Neil Scicluna, Edward Gatt, Owen Casha, Ivan Grech, Joseph Micallef:
FPGA-based autonomous parking of a car-like robot using Fuzzy Logic Control. ICECS 2012: 229-232 - [c25]Michelle Cutajar, Edward Gatt, Ivan Grech, Owen Casha, Joseph Micallef:
Comparison of different multiclass SVM methods for speaker independent phoneme recognition. ISCCSP 2012: 1-5 - [c24]Michelle Cutajar, Edward Gatt, Ivan Grech, Owen Casha, Joseph Micallef:
A study on pitch variation on the use of DWT with SVM for speaker independent phoneme recognition. ISCCSP 2012: 1-5 - 2011
- [c23]Jean Marie Darmanin, Ivan Grech, Edward Gatt, Owen Casha:
Design of a 2-axis MEMS accelerometer. ICECS 2011: 268-271 - [c22]Christian Mugliette, Ivan Grech, Owen Casha, Edward Gatt, Joseph Micallef:
FPGA active digital cochlea model. ICECS 2011: 699-702 - [c21]Michelle Cutajar, Edward Gatt, Ivan Grech, Owen Casha, Joseph Micallef:
Neural network architectures for speaker independent phoneme recognition. ISPA 2011: 90-94 - [c20]Michelle Cutajar, Edward Gatt, Ivan Grech, Owen Casha, Joseph Micallef:
Support Vector Machines with the priorities method for speaker independent phoneme recognition. ISSPIT 2011: 409-414 - 2010
- [c19]Francarl Galea, Edward Gatt, Owen Casha, Ivan Grech:
Control Unit for a Continuous Variable Transmission for use in an Electric Car. ICECS 2010: 247-250 - [c18]Terence Zarb, Ivan Grech, Edward Gatt, Owen Casha, Joseph Micallef:
Verification of a VHDL GPS baseband processor using a simulink-based test bench generator. ICECS 2010: 327-330 - [c17]Nicholas Attard, Steve Camilleri, Roberto Drago, Maverick Hili, Owen Casha, Edward Gatt, Ivan Grech:
VHDL implemetation of a DMX512 decoder on a FPGA. ICECS 2010: 710-713 - [c16]Isabel Gambin, Ivan Grech, Owen Casha, Edward Gatt, Joseph Micallef:
Digital cochlea model implementation using Xilinx XC3S500E Spartan-3E FPGA. ICECS 2010: 946-949 - [c15]Owen Casha, Ivan Grech, Edward Gatt, Joseph Micallef:
Experimental results obtained from a 1.6 GHz CMOS quadrature output phase locked loop with on-chip DC-DC converter. ICECS 2010: 1196-1199
2000 – 2009
- 2008
- [c14]Denise Vassallo, Edward Gatt:
Phoneme recognition using neural networks. ICECS 2008: 506-509 - [c13]Ryan Grech, Edward Gatt, Ivan Grech, Joseph Micallef:
Digital implementation of cellular neural networks. ICECS 2008: 710-713 - [c12]Owen Casha, Ivan Grech, Joseph Micallef, Edward Gatt, Dominique Morche, Bernard Viala, Jean-Philippe Michel, Pierre Vincent, Emeric de Foucauld:
Utilization of MEMS Tunable Inductors in the design of RF voltage-controlled oscillators. ICECS 2008: 718-721 - 2007
- [c11]Owen Casha, Ivan Grech, Joseph Micallef, Edward Gatt:
Design considerations and device selection in the implementation of low phase noise LC-VCOs. ICECS 2007: 1083-1086 - [c10]Paul Zammit, Ivan Grech, Joseph Micallef, Edward Gatt:
A 10 Gsamples/s SiGe Track-and-Hold Amplifier with 8-bit Resolution. ICECS 2007: 1232-1235 - 2006
- [c9]Owen Casha, Ivan Grech, Joseph Micallef, Edward Gatt:
Design of a 1.2 V Low Phase Noise 1.6 GHz CMOS Buffered Quadrature Output VCO with Automatic Amplitude Control. ICECS 2006: 192-195 - [c8]Charmaine Demanuele, Ivan Grech, Joseph Micallef, Edward Gatt:
Issues on the Design of a Variable Power LINC Amplifier System in SiGe Operating at 2.4 GHz. ICECS 2006: 439-442 - [c7]Mark Bonnici, Edward Gatt, Joseph Micallef, Ivan Grech:
Artificial Neural Network Optimization for FPGA. ICECS 2006: 1340-1343 - 2005
- [c6]Owen Casha, Ivan Grech, Edward Gatt, Joseph Micallef:
1.6-GHz low power low phase noise quadrature phase locked loop with on chip DC-DC converter for wide tuning range. ICECS 2005: 1-4 - [c5]Edward Gatt, Joseph Micallef, Edward H. S. Chilton:
Self-Organising Maps in Silicon for Phoneme Recognition. ICECS 2005: 1-5 - [c4]Edward Gatt, Joseph Micallef, Edward H. S. Chilton:
On-chip multi-layer perceptron and time-delay neural networks for phoneme recognition. ICECS 2005: 1-4 - 2004
- [b1]Edward Gatt:
Analogue VLSI neural networks for phoneme recognition. University of Surrey, Guildford, UK, 2004 - 2002
- [c3]Edward Gatt, Joseph Micallef, Edward H. S. Chilton:
Analogue radial basis function networks for phoneme recognition. ICECS 2002: 583-586 - 2001
- [c2]Edward Gatt, Joseph Micallef, Paul Micallef, Edward H. S. Chilton:
Phoneme classification in hardware implemented neural networks. ICECS 2001: 481-484 - [c1]Edward Gatt, Joseph Micallef, Edward H. S. Chilton:
Hardware radial basis functions neural networks for phoneme recognition. ICECS 2001: 627-630
Coauthor Index
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