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Ozcan Labs, UCLA Publish Method on Machine Learning Using Continuum of Wavelengths

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LOS ANGELES, Dec. 4, 2019 — A UCLA research team led by Aydogan Ozcan has been developing a diffractive deep neural network, a machine that combines optical diffraction deep learning with light-matter interaction. The goal for the team was to engineer diffractive surfaces that collectively perform optical computations at the speed of light.
Prototype of a broadband diffrative neural network. Courtesy of: Ozcan Research Group, UCLA.


Prototype of a broadband diffrative neural network. Courtesy of: Ozcan Research Group, UCLA.

Ozcan, a professor of electrical and computer engineering at UCLA, noted that the team’s previous diffractive network models were developed to process information through a single wavelength channel, therefore requiring a monochromatic and coherent illumination source.

“The new results that we have published this week in Light: Science & Applications address this limitation and teach us a method to process information at a continuum of wavelengths,” Ozcan said. “To prove the efficacy of this broadband diffractive network framework, we have designed optical networks that can process broadband optical pulses that are input to a given network.”

Since the connection between the input and output planes of a diffractive neural network is established via diffraction of light through passive layers, the inference process and the associated optical computation does not consume any power except the light used to illuminate the object of interest.

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“Diffractive optical networks that we have created provide a low-power, low-latency and highly scalable machine learning platform, with various potential applications in robotics, autonomous vehicles, and defense industry, among many others,” Ozcan said.

Ozcan’s team demonstrated the success of their framework by designing and implementing various optical components, such as single and double passband spectral filters and a spatially controlled wavelength de-multiplexing system using a broadband THz pulse as input. The latter’s input light pulse is filtered by a trained diffractive network into four different bands at four different locations at the output plane.

“Simultaneously analyzing and processing light across many wavelengths presents unique opportunities to enhance the inference and generalization capabilities of diffractive optical networks to perform machine learning tasks,” Ozcan said.

Ozcan believes these opportunities for enhancement could manifest in all-optical object recognition for robotics and autonomous cars and designing deterministic and task-specific optical components, such as ultra-thin lenses or smart camera systems, expanding the optical design space beyond human intuition.

Published: December 2019
Glossary
machine learning
Machine learning (ML) is a subset of artificial intelligence (AI) that focuses on the development of algorithms and statistical models that enable computers to improve their performance on a specific task through experience or training. Instead of being explicitly programmed to perform a task, a machine learning system learns from data and examples. The primary goal of machine learning is to develop models that can generalize patterns from data and make predictions or decisions without being...
terahertz
Terahertz (THz) refers to a unit of frequency in the electromagnetic spectrum, denoting waves with frequencies between 0.1 and 10 terahertz. One terahertz is equivalent to one trillion hertz, or cycles per second. The terahertz frequency range falls between the microwave and infrared regions of the electromagnetic spectrum. Key points about terahertz include: Frequency range: The terahertz range spans from approximately 0.1 terahertz (100 gigahertz) to 10 terahertz. This corresponds to...
deep learning
Deep learning is a subset of machine learning that involves the use of artificial neural networks to model and solve complex problems. The term "deep" in deep learning refers to the use of deep neural networks, which are neural networks with multiple layers (deep architectures). These networks, often called deep neural networks or deep neural architectures, have the ability to automatically learn hierarchical representations of data. Key concepts and components of deep learning include: ...
Research & TechnologyAydogan OzcanUCLACaliforniamachine learningdiffractive deep neural networkdiffractivespectral filtersterahertzneural networksdeep learningOpticsFilterseducation

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