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William C. Miller
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2020 – today
- 2024
- [j37]Lani Fox, William C. Miller, Dionne Gesink, Irene A. Doherty, Marc L. Serre:
Enhancing insights in sexually transmitted infection mapping: Syphilis in Forsyth County, North Carolina, a case study. PLoS Comput. Biol. 20(10): 1012464 (2024) - 2021
- [j36]Dana K. Pasquale, Irene A. Doherty, Peter A. Leone, Ann M. Dennis, Erika Samoff, Constance S. Jones, John Barnhart, William C. Miller:
Lost and found: applying network analysis to public health contact tracing for HIV. Appl. Netw. Sci. 6(1): 13 (2021)
2010 – 2019
- 2017
- [j35]Pooja Viswanathan, Ellen P. Zambalde, Geneviève Foley, Julianne L. Graham, Rosalie Wang, Bikram Adhikari, Alan K. Mackworth, Alex Mihailidis, William C. Miller, Ian M. Mitchell:
Intelligent wheelchair control strategies for older adults with cognitive impairment: user attitudes, needs, and preferences. Auton. Robots 41(3): 539-554 (2017) - 2010
- [j34]Rashid Rashidzadeh, Majid Ahmadi, William C. Miller:
An All-Digital Self-Calibration Method for a Vernier-Based Time-to-Digital Converter. IEEE Trans. Instrum. Meas. 59(2): 463-469 (2010)
2000 – 2009
- 2009
- [j33]Rashid Rashidzadeh, Roberto Muscedere, Majid Ahmadi, William C. Miller:
A Delay Generation Technique for Narrow Time Interval Measurement. IEEE Trans. Instrum. Meas. 58(7): 2245-2252 (2009) - 2007
- [j32]Rashid Rashidzadeh, Majid Ahmadi, William C. Miller:
Test and Measurement of Analog and RF Cores in Mixed-Signal SoC Environment. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 26(10): 1855-1865 (2007) - 2005
- [j31]Roberto Muscedere, Vassil S. Dimitrov, Graham A. Jullien, William C. Miller:
A Low-Power Two-Digit Multi-dimensional Logarithmic Number System Filterbank Architecture for a Digital Hearing Aid. EURASIP J. Adv. Signal Process. 2005(18): 3015-3025 (2005) - [j30]Roberto Muscedere, Vassil S. Dimitrov, Graham A. Jullien, William C. Miller:
Efficient Techniques for Binary-to-Multidigit Multidimensional Logarithmic Number System Conversion Using Range-Addressable Look-Up Tables. IEEE Trans. Computers 54(3): 257-271 (2005) - [c63]Sazzadur Chowdhury, Majid Ahmadi, William C. Miller:
A New Method of Electrostatic Force Modeling for MEMS Sensors and Actuators. ICMENS 2005: 431-435 - [c62]G. M. Howard, Pedram Mokrian, Majid Ahmadi, William C. Miller:
Power and delay analysis of 4: 2 compressor cells. ISCAS (4) 2005: 3559-3562 - [c61]Y. Ibrahim, William C. Miller, Graham A. Jullien, Vassil S. Dimitrov:
DBNS addition using cellular neural networks. ISCAS (4) 2005: 3914-3917 - 2004
- [c60]Sazzadur Chowdhury, Majid Ahmadi, William C. Miller:
The Concept of a 3-D Cubic Acoustical Sensor Microarray Cluster for Use in a Hearing Instrument. ICMENS 2004: 160-164 - [c59]Sazzadur Chowdhury, Majid Ahmadi, William C. Miller:
Electrical connectivity analysis of a MEMS micropackage. ISCAS (4) 2004: 916-919 - [c58]Y. Ibrahim, Graham A. Jullien, William C. Miller:
Ultra Low Noise Signed Digit Arithmetic using Cellular Neural Networks. IWSOC 2004: 136-142 - [c57]Iman Y. Taha, Majid Ahmadi, William C. Miller:
A Sigma-Delta Modulator for Digital Hearing Instruments Using 0.18µm CMOS Technology. IWSOC 2004: 233-236 - 2003
- [c56]Sazzadur Chowdhury, Majid Ahmadi, William C. Miller:
Nonlinear Effects in MEMS Capacitive Microphone Design. ICMENS 2003: 297-302 - [c55]Rashid Rashidzadeh, Majid Ahmadi, William C. Miller:
A tester-on-chip implementation in 0.18µ CMOS utilizing a MEMS interface. ISCAS (5) 2003: 561-564 - [c54]Sazzadur Chowdhury, Majid Ahmadi, William C. Miller:
A MEMS custom micropackaging solution. ISCAS (3) 2003: 938-941 - [c53]Minyi Fu, Graham A. Jullien, Vassil S. Dimitrov, Majid Ahmadi, William C. Miller:
The Application of 2D Algebraic Integer Encoding to a DCT IP Core. IWSOC 2003: 66-69 - [c52]Jiyi Gu, Majid Ahmadi, William C. Miller:
A Low-Voltage Low-Power Digital-Audio Sigma-Delta Modulator in 0.18-µm CMOS. VLSI 2003: 79-82 - [c51]Mitra Mirhassani, Majid Ahmadi, William C. Miller:
A Feed-Forward Time-Multiplexed Neural Network with Mixed-Signal Neuron-Synapse Arrays. VLSI 2003: 339-344 - 2002
- [j29]H. Safiri, Majid Ahmadi, Graham A. Jullien, William C. Miller:
A New Algorithm for the Elimination of Common Subexpressions in Hardware Implementation of Digital Filters by Using Genetic Programming. J. VLSI Signal Process. 31(2): 91-100 (2002) - [c50]Roberto Muscedere, Vassil S. Dimitrov, Graham A. Jullien, William C. Miller:
Efficient Conversion From Binary to Multi-Digit Multi-Dimensional Logarithmic Number Systems Using Arrays of Range Addressable Look-Up Tables. ASAP 2002: 130- - [c49]Javad Haddadnia, Majid Ahmadi, William C. Miller:
Multi-features and Multi-stages RBF Neural Network Classifier with Fuzzy Integral in Human Face Recognition. IC-AI 2002: 117-123 - [c48]Ricardo Andres Aroca, Majid Ahmadi, R. Hashemian, Graham A. Jullien, William C. Miller:
A B-s complement continuous valued digit adder. ICECS 2002: 433-436 - [c47]Sazzadur Chowdhury, Majid Ahmadi, Graham A. Jullien, William C. Miller:
A MEMS socket system for high density SoC interconnection. ISCAS (1) 2002: 657-660 - 2001
- [c46]Vassil S. Dimitrov, Jonathan Eskritt, Laurent Imbert, Graham A. Jullien, William C. Miller:
The Use of the Multi-Dimensional Logarithmic Number System in DSP Applications. IEEE Symposium on Computer Arithmetic 2001: 247- - [c45]Sazzadur Chowdhury, Majid Ahmadi, Graham A. Jullien, William C. Miller:
A MEMS implementation of an acoustical sensor array. ISCAS (2) 2001: 273-276 - [c44]H. Safiri, Majid Ahmadi, Graham A. Jullien, William C. Miller:
A novel approach based on genetic algorithm for pipelining of recursive filters. ISCAS (2) 2001: 633-636 - 2000
- [j28]Idris El-Feghi, Majid Ahmadi, William C. Miller, Maher A. Sid-Ahmed, V. Ramachandran:
Design of Stable 3D Recursive Digital Filters Using 3-Variable Very Strictly Hurwitz Polynomial. J. Circuits Syst. Comput. 10(5-6): 219-228 (2000) - [j27]Vassil S. Dimitrov, Graham A. Jullien, William C. Miller:
Complexity and Fast Algorithms for Multiexponentiations. IEEE Trans. Computers 49(2): 141-147 (2000) - [c43]H. Safiri, Majid Ahmadi, Graham A. Jullien, William C. Miller:
A New Algorithm for the Elimination of Common Subexpressions in Hardware Implementation of Digital Filters by Using Genetic Programming. ASAP 2000: 319-328 - [c42]Sazzadur Chowdhury, Graham A. Jullien, Majid Ahmadi, William C. Miller:
A MEMS micromagnetic actuator for use in a bionic interface. ISCAS 2000: 181-184
1990 – 1999
- 1999
- [j26]Vassil S. Dimitrov, Graham A. Jullien, William C. Miller:
Theory and Applications of the Double-Base Number System. IEEE Trans. Computers 48(10): 1098-1106 (1999) - [c41]Hormoz Djahanshahi, Majid Ahmadi, Graham A. Jullien, William C. Miller:
Sensitivity study and improvements on a nonlinear resistive-type neuron circuit. ICECS 1999: 1029-1033 - [c40]Graham A. Jullien, Vassil S. Dimitrov, B. Li, William C. Miller, A. Lee, Majid Ahmadi:
A hybrid DBNS processor for DSP computation. ISCAS (1) 1999: 5-8 - [c39]M. Shahkarami, Graham A. Jullien, William C. Miller:
Designing FIR filters with enhanced Fermat ALUs. ISCAS (3) 1999: 287-290 - [c38]A. Lee, Majid Ahmadi, Graham A. Jullien, Reza S. Lashkan, William C. Miller:
Design of 1-D FIR filters with genetic algorithms. ISCAS (3) 1999: 295-298 - [c37]J. Yang, Majid Ahmadi, Graham A. Jullien, William C. Miller:
An in-the-loop training method for VLSI neural networks. ISCAS (5) 1999: 619-622 - [c36]A. Lee, Majid Ahmadi, Graham A. Jullien, Reza S. Lashkari, William C. Miller:
Design of 1-D FIR filters with genetic algorithms. ISSPA 1999: 955-958 - 1998
- [j25]Vassil S. Dimitrov, Graham A. Jullien, William C. Miller:
An Algorithm for Modular Exponentiation. Inf. Process. Lett. 66(3): 155-159 (1998) - [j24]Hormoz Djahanshahi, Majid Ahmadi, Graham A. Jullien, William C. Miller:
A Low-Variation Nonlinear Neuron Circuit. J. Circuits Syst. Comput. 8(4): 447-451 (1998) - [j23]Hormoz Djahanshahi, Majid Ahmadi, Graham A. Jullien, William C. Miller:
Neural Network Integrated Circuits with Single-Block Mixed Signal Arrays. J. Circuits Syst. Comput. 8(5-6): 589-604 (1998) - [j22]Saeid Sadeghi-Emamchaie, Graham A. Jullien, Vassil S. Dimitrov, William C. Miller:
Digital Arithmetic Using Analog Cellular Neural Networks. J. Circuits Syst. Comput. 8(5-6): 615-635 (1998) - [j21]Vassil S. Dimitrov, Graham A. Jullien, William C. Miller:
A residue number system implementation of real orthogonal transforms. IEEE Trans. Signal Process. 46(3): 563-570 (1998) - [c35]Saeid Sadeghi-Emamchaie, Graham A. Jullien, Vassil S. Dimitrov, William C. Miller:
Digital Arithmetic Using Analog Arrays. Great Lakes Symposium on VLSI 1998: 202-207 - [c34]Vassil S. Dimitrov, Graham A. Jullien, William C. Miller:
A new DCT algorithm based on encoding algebraic integers. ICASSP 1998: 1377-1380 - 1997
- [j20]Zhongde Wang, Graham A. Jullien, William C. Miller, Jinghong Wang, Sami S. Bizzan:
Fast adders using enhanced multiple-output domino logic. IEEE J. Solid State Circuits 32(2): 206-214 (1997) - [c33]Vassil S. Dimitrov, Graham A. Jullien, William C. Miller:
Theory and applications for a double-base number system. IEEE Symposium on Computer Arithmetic 1997: 44- - [c32]Vassil S. Dimitrov, Graham A. Jullien, William C. Miller:
Algorithms for Multi-Exponentiation Based on Complex Arithmetic. IEEE Symposium on Computer Arithmetic 1997: 208- - 1996
- [j19]Zhongde Wang, Graham A. Jullien, William C. Miller:
On computing Chebyshev optimal nonuniform interpolation. Signal Process. 51(3): 223-228 (1996) - [j18]Zhongde Wang, Graham A. Jullien, William C. Miller:
An efficient tree architecture for modulo 2n+1 multiplication. J. VLSI Signal Process. 14(3): 241-248 (1996) - [c31]Hormoz Djahanshahi, Majid Ahmadi, Graham A. Jullien, William C. Miller:
Design and VLSI Implementation of a Unified Synapse-Neuron Architecture. Great Lakes Symposium on VLSI 1996: 228-233 - [c30]Hormoz Djahanshahi, Majid Ahmadi, Graham A. Jullien, William C. Miller:
A modular architecture for hybrid VLSI neural networks and its application in a smart photosensor. ICNN 1996: 868-873 - 1995
- [j17]Zhongde Wang, Graham A. Jullien, William C. Miller:
A New Design Technique for Column Compression Multipliers. IEEE Trans. Computers 44(8): 962-970 (1995) - [c29]Wenzhe Luo, Graham A. Jullien, Neil M. Wigley, William C. Miller, Zhongde Wang:
An array processor for inner product computations using a Fermat number ALU. ASAP 1995: 270-281 - 1994
- [j16]Graham A. Jullien, William C. Miller, Roger Grondin, Lino Del Pup, Sami S. Bizzan, David Zhang:
Dynamic computational blocks for bit-level systolic arrays. IEEE J. Solid State Circuits 29(1): 14-22 (1994) - [j15]Zhongde Wang, Graham A. Jullien, William C. Miller:
The generalized discrete W transform and its application to interpolation. Signal Process. 36(1): 99-109 (1994) - [j14]Jiwen Wang, Xiangui Yu, Nan K. Loh, Zuxu Qin, William C. Miller:
Solving linear algebraic equations without error. IEEE Signal Process. Lett. 1(3): 58-60 (1994) - [j13]Zhongde Wang, Graham A. Jullien, William C. Miller:
Recursive algorithms for the forward and inverse discrete cosine transform with arbitrary length. IEEE Signal Process. Lett. 1(7): 101-102 (1994) - [j12]Zhongde Wang, Graham A. Jullien, William C. Miller:
Comments on "On asymmetrical performance of discrete cosine transform". IEEE Trans. Signal Process. 42(11): 3262-3263 (1994) - [c28]Zhongde Wang, Graham A. Jullien, William C. Miller:
A regular recursive algorithm for the discrete sine transform. ICASSP (3) 1994: 469-472 - [c27]June Wang, Zhongde Wang, Graham A. Jullien, William C. Miller:
Area-Time Analysis of Carry Lookahead Adders Using Enhanced Multiple Output Domino Logic. ISCAS 1994: 59-62 - [c26]P. Zhou, J. C. Czilli, Graham A. Jullien, William C. Miller:
Current Input TSPC Latch for High Speed, Complex Switching Trees. ISCAS 1994: 335-338 - 1993
- [j11]Graham A. Jullien, Neil M. Wigley, William C. Miller:
VLSI implementations of number theoretic techniques in signal processing. Integr. 16(3): 293-313 (1993) - [j10]Xiangui Yu, Nan K. Loh, William C. Miller:
An improved digit-reversal permutation algorithm. Signal Process. 32(3): 409-415 (1993) - [c25]Sami S. Bizzan, Graham A. Jullien, Neil M. Wigley, William C. Miller:
Integer mapping architectures for the polynomial ring engine. IEEE Symposium on Computer Arithmetic 1993: 44-51 - [c24]Xiangui Yu, Nan K. Loh, William C. Miller:
A new acceleration technique for the backpropagation algorithm. ICNN 1993: 1157-1161 - [c23]Zhongde Wang, Graham A. Jullien, William C. Miller, June Wang:
New Concepts for the Design of Carry Lookahaead Adders. ISCAS 1993: 1837-1840 - [c22]Xiangui Yu, Nan K. Loh, William C. Miller:
A new algorithm for training multilayer feedforward neural networks. ISCAS 1993: 2403-2406 - 1991
- [c21]David Zhang, Graham A. Jullien, William C. Miller, Earl E. Swartzlander Jr.:
Arithmetic for digital neural networks. IEEE Symposium on Computer Arithmetic 1991: 58-63 - [c20]Neil M. Wigley, Graham A. Jullien, Daniel Reaume, William C. Miller:
Small moduli replications in the MRRNS. IEEE Symposium on Computer Arithmetic 1991: 92-99 - 1990
- [j9]Graham A. Jullien, Subir Bandyopadhyay, William C. Miller, Majid Taheri:
A low-overhead scheme for testing a bit-level finite ring systolic array. J. VLSI Signal Process. 2(3): 131-137 (1990)
1980 – 1989
- 1989
- [j8]Graham A. Jullien, P. D. Bird, J. T. Carr, Majid Taheri, William C. Miller:
An efficient bit-level systolic cell design for finite ring digital signal processing applications. J. VLSI Signal Process. 1(3): 189-207 (1989) - 1988
- [j7]Majid Taheri, Graham A. Jullien, William C. Miller:
High-speed signal processing using systolic arrays over finite rings. IEEE J. Sel. Areas Commun. 6(3): 504-512 (1988) - 1987
- [c19]Majid Taheri, Graham A. Jullien, William C. Miller:
Systolic ROM arrays for implementing RNS FIR filters. ICASSP 1987: 771-774 - [c18]Ramasamy Krishnan, Graham A. Jullien, William C. Miller:
Implementation of the generalized FIR filter structure using the residue arithmetic. ICASSP 1987: 892-895 - [c17]Ramasamy Krishnan, Graham A. Jullien, William C. Miller:
VLSI Modular architectures for complex digital signal processing applications. ICASSP 1987: 1410-1413 - 1986
- [j6]Ramasamy Krishnan, Graham A. Jullien, William C. Miller:
Complex digital signal processing using quadratic residue number systems. IEEE Trans. Acoust. Speech Signal Process. 34(1): 166-177 (1986) - [c16]Ramasamy Krishnan, Graham A. Jullien, William C. Miller:
VLSI Implementation of Complex Digitial Signal Processing Structures. IAS 1986: 313-321 - [c15]Ramasamy Krishnan, Graham A. Jullien, William C. Miller:
Computation of complex number theoretic transforms using quadratic residue number systems. ICASSP 1986: 233-236 - [c14]Magdy A. Bayoumi, Graham A. Jullien, William C. Miller:
A VLSI array for computing the DFT based on RNS. ICASSP 1986: 2147-2150 - [c13]Ramasamy Krishnan, Graham A. Jullien, William C. Miller:
The implementation of the generalized Lagrange FIR filter structure defined over finite fields or rings. ICASSP 1986: 2583-2586 - 1985
- [c12]Magdy A. Bayoumi, Graham A. Jullien, William C. Miller:
A VLSI implementation of an FFT/NTT computational unit. ICASSP 1985: 192-195 - [c11]Ramasamy Krishnan, Graham A. Jullien, William C. Miller:
Complex digital signal processing using quadratic residue number systems. ICASSP 1985: 764-767 - [c10]Magdy A. Bayoumi, Graham A. Jullien, William C. Miller:
An efficient VLSI adder for DSP architectures based on RNS. ICASSP 1985: 1457-1460 - [c9]Mohsin M. Jamali, Graham A. Jullien, William C. Miller, S. I. Ahmad:
Software techniques for programming a general purpose data flow signal processor. ICASSP 1985: 1641-1644 - 1984
- [j5]Magdy A. Bayoumi, Graham A. Jullien, William C. Miller:
A VLSI model for residue number system architectures. Integr. 2(3): 191-211 (1984) - [c8]Magdy A. Bayoumi, Graham A. Jullien, William C. Miller:
A systolic (VLSI) array using RNS for digital signal processing applications. ACM Conference on Computer Science 1984: 115-120 - [c7]Mohsin M. Jamali, Graham A. Jullien, William C. Miller, S. I. Ahmad:
A real time general purpose signal processor. ICASSP 1984: 672-675 - 1983
- [j4]Magdy A. Bayoumi, Graham A. Jullien, William C. Miller:
An area-time efficient NMOS adder. Integr. 1(4): 317-334 (1983) - [j3]Hari K. Nagpal, Graham A. Jullien, William C. Miller:
Processor Architectures for Two-Dimensional Convolvers Using a Single Multiplexed Computational Element with Finite Field Arithmetic. IEEE Trans. Computers 32(11): 989-1001 (1983) - [c6]Magdy A. Bayoumi, Graham A. Jullien, William C. Miller:
Models for VLSI implementation of residue number system arithmetic modules. IEEE Symposium on Computer Arithmetic 1983: 174-182 - 1982
- [c5]Hari K. Nagpal, Graham A. Jullien, William C. Miller:
Memory architecture of a video-rate image convolver. ICASSP 1982: 1203-1206 - 1981
- [c4]Graham A. Jullien, William C. Miller:
A two-dimensional finite field processor for image filtering. ICASSP 1981: 1140-1143 - 1980
- [c3]Graham A. Jullien, William C. Miller:
A hardware realization of an NTT convolver using ROM arrays. ICASSP 1980: 788-791
1970 – 1979
- 1979
- [j2]Ben-Dau Tseng, Graham A. Jullien, William C. Miller:
Implementation of FFT Structures Using the Residue Number System. IEEE Trans. Computers 28(11): 831-844 (1979) - 1978
- [j1]Ben-Dau Tseng, William C. Miller:
On Computing the Discrete Cosine Transform. IEEE Trans. Computers 27(10): 966-968 (1978) - [c2]Graham A. Jullien, William C. Miller:
Application of the residue number system to computer processing of digital signals. IEEE Symposium on Computer Arithmetic 1978: 220-225 - [c1]Ben-Dau Tseng, William C. Miller, Graham A. Jullien, J. J. Soltis, A. Baraniecka:
An error anaylsis of a FFT implementation using the residue number system. ICASSP 1978: 800-803
Coauthor Index
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