Thomas A. Baran scite author profile

This paper presents a framework for designing a class of distributed, asynchronous optimization algorithms, realized as signal processing architectures utilizing various conservation principles. The architectures are specifically based on stationarity conditions pertaining to primal and dual variables in a class of generally nonconvex optimization problems. The stationarity conditions, which are closely related to the principles of stationary content and co-content that can be derived using Tellegen's theorem in electrical networks, are in particular transformed via a linear change of coordinates to obtain a set of linear and nonlinear maps that form the basis for implementation. The resulting algorithms specifically operate by processing a linear superposition of primal and dual decision variables using the associated maps, coupled using synchronous or asynchronous delay elements to form a distributed system. A table is provided containing specific example elements that can be assembled to form various optimization algorithms directly from the corresponding problem statements.

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Design and Implementation of Discrete-Time Filters For Efficient Rate-Conversion Systems

Baran

Oppenheim

2007

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MOOC Adventures in Signal Processing: Bringing DSP to the era of massive open online courses

Baran

Baraniuk

Oppenheim

et al. 2016

IEEE Signal Process. Mag.

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Thomas A. Baran

Linear Programming Algorithms for Sparse Filter Design

Conservative signal processing architectures for asynchronous, distributed optimization part I: General framework

Design and Implementation of Discrete-Time Filters For Efficient Rate-Conversion Systems

MOOC Adventures in Signal Processing: Bringing DSP to the era of massive open online courses

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