Past Industry Programs
2 March 2021, 8:00 PM - 9:30 PM
Dr. Lukes will share insights gained while transitioning from a PhD student to an entrepreneur. She started Agile Focus Designs in 2015 to provide accurate, agile, and user-friendly tools for microscopists in manufacturing, science, and healthcare. Since then Agile Focus has sought the development of a fast focus and zoom system to mitigate the need for switching or translating objective lenses to achieve magnification change during microscopy. Inspired by experiments in a cramped office space, Agile Focus has also created additional optomechanical components to reduce cost and improve space efficiency for entrepreneurs and those working remotely. This webinar will cover advancements made in active optics toward fast focus and zoom, and the lessons learned along the way.
28 February 2021, 8:00 PM - 9:30 PM
Human activity Recognition (HAR) are explored in video-based computer vision domain and sensor-based ubiquitous research areas. Vision-based human action or activity recognition approaches are based on RGB video sequences, or depth maps, or from skeleton data – taken from normal video cameras or depth cameras. On the other hand, sensor-based activity recognition methods are basically based on the data collected from wearable sensors having accelerometer, gyroscope, or so on. There are numerous applications on HAR, however, the healthcare, elderly support, and related applications become very important arenas with huge social and financial impact. Due to the advent of various IoT sensors, it becomes more competitive as well as easier to explore different applications.
26 February 2021, 4:00 PM - 5:00 PM
Ever wondered what challenges you might face when not only transitioning to industry after graduating, but actually setting up your own business? In this webinar series, young European entrepreneurs share their stories on moving from the lab into the executive office.
In this webinar, get to know Francisco Rodrigues, PICadvanced, Portugal.
26 February 2021, 8:00 AM - 9:30 AM
As genetically-encoded fluorescence indicators of calcium and membrane potential evolve and improve, optical methods advance to exploit their full potential for neurophysiology research. With so many choices, the neurophysiologist needs a systematic framework for comparing and predicting the performance of indicator/imaging system combinations. Dr. Foust will present such a framework for which the key figure of merit is the signal-to-noise ratio of the time-varying fluorescence signal. In this context I will also describe our efforts to boost photon budgets for membrane potential and calcium imaging with multi-focal two-photon and light-field imaging systems.
25 February 2021, 11:00 AM - 12:00 PM
As the complexity of Photonic Integrated Circuits (PICs) continues to grow, testing environments become more complicated. In this webinar, we will present several simulation testbenches prepared for visualizing typical measurement characteristics. The examples we will discuss include methods for group index verification, simulation of passive circuit transfer functions, characterization of SOAs, and evaluating the transfer characteristic of an Activation Unit for a Photonic Neural Network. These examples will all be demonstrated live using the photonic design automation (PDA) software VPIcomponentMaker Photonic Circuits.
24 February 2021, 3:00 PM - 4:30 PM
This presentation will go over the various techniques used to measure the optical performance of the grism component of the Wide Field Instrument on board the Roman Space Telescope.
23 February 2021, 3:00 PM - 4:30 PM
The benefits of systems engineering are widely promoted with varying degrees of understanding. This
webinar is based on many years of experience designing and building complex systems incorporating all of the engineering disciplines (optics, mechanics, electronics, and software). For me, understanding and
using systems engineering has been a natural approach driven by my instincts (even before it was a newfound contemporary “thing”).
Systems engineering is about balance and perspective. The word “system” conveys the inherently multidisciplinary nature of the work. The engineering work is fundamentally to hold a perspective that makes sure nothing is overlooked that could affect the outcome and to make sure that the best balance is achieved between all of the competing needs and wants that drive the creation of the system in the first
Systems engineering starts with requirements, and then systems engineering follows on to serve and protect the requirements by constantly evaluating error budgets and the compliance of the system with the requirements as the system is designed and built.
In this webinar you will learn by example:
- How to approach the development of requirements that satisfies your stakeholders
- How to use one sentence definitions to clarify ideas and gain consensus
- How to define and manage expectations
- How to gain and confirm requirements “completeness”.
3 February 2021, 2:00 PM - 3:30 PM
In this talk, Dr. Benjamin Lee will review the progress over the past ten years in developing a photonic switch solution that can potentially be manufactured and assembled with low cost, while offering fast reconfigurability and high performance. Beginning with initial work on device development and scaling to recent work on large-scale photonic integrated circuit implementations.
2 February 2021, 11:00 AM - 12:00 PM
Menlo Systems’ ultra-low noise (ULN) frequency comb technology, combined with advanced CW laser sources, ensures transferring the spectral purity of a superior optical reference to all CW lasers locked to the comb. This feature is exploited in clock comparisons or quantum experiments, where a long coherence time of the laser sources is mandatory.
26 January 2021, 11:00 AM - 12:00 PM
Within two decades, the optical frequency comb has revolutionized numerous fields in physics: Precision spectroscopy, time and length-metrology, molecular fingerprinting, and ultra-low phase noise microwaves mark just a few application examples. Being the only device with the ability to directly link the optical with the radio frequency domain, the frequency comb has become an irreplaceable tool, and not only for quantum optics laboratories.
20 January 2021, 11:00 AM - 12:00 PM
The next VIAVI webinar in our ongoing coherent optical module test series will focus on the transition into manufacturing. Today, end customer pricing expectations are more aggressive than ever. Long-term pricing is expected from day one. But finding a window during the product lifecycle to refine test processes is less and less practical after launch. This simple fact means test engineers must be thinking about manufacturing challenges from the very early stages of NPI.
1 December 2020, 10:00 AM - 2:40 PM
A Unique Product Presentation, Discussion and Networking Event
18 November 2020, 12:00 PM - 6:30 PM
Join us for two exciting courses in one live training from industry leaders!
The first course will feature Robert Norwood: "From Optics & Photonics Innovation to the Marketplace." This course covers the process of technology development in the photonics industry from the perspectives of both formal processes and case studies. Key aspects of the commercialization process, including intellectual property, new product development processes, technical marketing and team building, are treated in an interactive program informed by the instructor’s 15 years of industry experience in both large corporate research and development organizations and entrepreneurial startups. This course will emphasize the optical engineer’s role in a product development environment. The course will run from 12:00 to 15:00.
The second course will be "Optical Systems Engineering" taught by Keith Kasunic.
Optical Systems Engineering emphasizes first-order, system-level estimates of optical performance. Building on the basic principles of optical design, this course uses various examples to illustrate the systems-engineering processes of requirements analysis, feasibility and trade studies, requirements flowdown and allocation, error budgets, and component specifications. Topics covered will include an introduction to systems engineering, geometrical optics, image quality, radiometry, detectors and FPAs, optomechanics, and the integration of these topics for developing a complete optical system. This course will run from 16:00 to 18:30.
12 November 2020, 10:00 AM - 2:00 PM
Hosted By: OIDA
12 November 2020, 9:30 AM - 4:00 PM
This course will provide fundamentals of Optical Wireless Communications with special emphasis on technologies and techniques including systems design and performance analysis in achieving high bandwidth, much higher than that exists today by RF communications. The course will address the OWC systems basic block diagrams discussing the systems components and subsystems design issues in order to address a number of challenges such as atmospheric turbulence, mobility and security Various options relevant to future optical wireless communication terminals incorporating indoor, terrestrial, aerial and space and underwater OWC will also be discussed briefly. The course will also cover Optical wireless communication with recent Visible Light Communications (VLC) technology, offering alternative solution to replace Wi-Fi with Li-Fi (light fidelity). The course will explain technology for incorporating with the emerging 5G, the new frontier of mobile technology, Internet of Things (IoT) and other future applications. The course will finally address future mobile and wireless technologies to even extend the vision of 5G to more ambitious future application scenarios.
27 October 2020, 9:00 AM - 10:00 AM
A rigid Fabry-Perot etalon is the core of an ultrastable laser system. In the second part of our webinar miniseries on high precision metrology we will review in detail the physical characteristics of such an optical reference cavity:
21 October 2020, 11:00 AM - 12:00 PM
Next generation coherent optical systems are expected to deliver high data rates to meet the increase of traffic demands driven by the emergence of high bandwidth applications, such as Internet of Things, 4K video streaming, and online gaming. Different technologies have been proposed and investigated for next generation 400G, 800G, and 1.6T systems. In this webinar, we review the most promising techniques including, advanced modulation formats and coding, fiber nonlinearity mitigation, and space division multiplexing. All demonstrations will be performed in VPIphotonics Design Suite.
20 October 2020, 9:00 AM - 10:00 AM
In the first part of our webinar miniseries on high precision metrology we give a brief introduction to the language of frequency metrology:
19 October 2020, 11:00 AM - 12:00 PM
With the recent release of the OIF 400ZR standard, test engineers are now focused on updating test strategies across all phases of their product development process including design validation, compliance and manufacturing. Tightening performance standards present increased challenges to test system design while at the same time, cost expectations are become more and more challenging. Test engineers are clearly on the front line. This webinar will explore key test design and implementation challenges that will need to be overcome.
12 October 2020, 1:00 PM - 2:00 PM
Hosted by: OIDA & OSAF |
Sponsored by: Go!Foton
7 October 2020, 10:00 AM - 1:00 PM
This is one of a series of online discussions of the requirements on optical components for applications of quantum technology. This roundtable will consider a wide range of applications, while focusing on specific optical components such as lasers, detectors, and integrated photonics. The aim of the event is to assess and revise, if necessary, the requirements described in the document published this year, OIDA Quantum Photonics Roadmap—Every Photon Counts. The event will feature experts invited to offer their perspectives, and attendees will also encouraged to participate in the interactive discussion.
28 September 2020, 1:00 PM - 2:30 PM
Future wireless networks have to deal with a high degree of heterogeneity in terms of device classes, deployment environments, and mobility levels. Coexisting wireless technologies is an encouraging approach to revolutionize future networks. The radio-frequency (RF) based WiFi access points have been already considered to enable indoor traffic off-loading from LTE-cells. In addition to RF, optical wireless technologies such as visible light communications (VLC) open up a new opportunity. VLC is an emerging technology that uses, for example, the existing indoor lighting infrastructure to offer data transmission combined with high-quality illumination. The technology has the potential to add capacity and to be an attractive complementary to off-load data from existing RF networks. In this webinar, we focus on describing the potential of VLC, highlighting different research challenges, and articulating classical as well as machine learning-based approaches to deal with these challenges.
23 September 2020, 11:00 AM - 12:00 PM
In this webinar, we explore simple test setups to accurately measure IL and RL for various non-standard and emerging cable assemblies including: hybrid patch cords, unibody duplex (SN and MDC), ruggedized connectors, shuffles, loopbacks, and expanded beam connectors. We will also look at the new 3M expanded beam EBO connector in detail and show features that make it optimal for connectivity and installation.
15 September 2020, 12:00 PM - 1:30 PM
Hosted by: OIDA & OSAF |
Sponsored by: Go!Foton
9 September 2020, 11:00 AM - 12:00 PM
Streamlining the design process, shortening the development cycle, and reducing the transition to manufacturing remain some of the most demanding requirements for photonic integrated circuit (PIC) designers. During this webinar, Infinera and VPIphotonics will present a design and fabrication workflow for InP PICs developed to address these needs. The workflow is based on the Infinera Process Design Kit (PDK), which includes devices optimized to ensure the best performance and yield within Infinera’s InP foundry. VPIphotonics and Infinera collaborated to develop compact models for these PDK building blocks to allow for rapid prototyping of application-specific PICs.
Join our webinar to learn how to start your PIC design with a graphical circuit representation and system simulation in VPIphotonics’ software environment and smoothly proceed with physical layout implementation, verification, and fabrication by Infinera’s InP foundry.