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  1. Part 4: Overcoming Technical And Logistical Automotive Integration Challenges
    9/20/2018

    Safe advanced driver assist system (ADAS) vehicles and autonomous vehicles (AV) require the use of sensors to deliver scene data adequate for the detection and classification algorithms to autonomously navigate under all conditions. This requirement cannot be adequately met with just visible cameras, sonar, and radar sensors. Thermal, or longwave infrared (LWIR), cameras can detect and classify pedestrians in darkness, fog, and sun glares, and deliver improved technical and logistical integration for ADAS systems. This white paper is Part 4 of the series how thermal infrared cameras overcome technical and logistical integrations challenges in autonomous driving.

  2. Part 3: The Pathway To Affordable, Scalable Automotive Integration
    9/20/2018

    Safe advanced driver assist system (ADAS) vehicles and autonomous vehicles (AV) require the use of sensors to deliver scene data adequate for the detection and classification algorithms to autonomously navigate under all conditions. This requirement cannot be adequately met with just visible cameras, sonar, and radar sensors, as they do not meet many safety concerns in real conditions. Thermal, or longwave infrared (LWIR), cameras can detect and classify pedestrians in darkness, fog, and sun glares, delivering improved situational awareness in ADAS and AV. This white paper is Part 3 of the series on how thermal infrared cameras deliver an affordable, scalable and integrative solution over other sensor technologies for autonomous driving.

  3. Part 2: Technical Advantages Of Thermal Cameras In ADAS And AV Platforms
    9/20/2018

    Safe advanced driver assist system (ADAS) vehicles and autonomous vehicles (AV) require the use of sensors to deliver scene data adequate for the detection and classification algorithms to autonomously navigate under all conditions. This requirement cannot be adequately met with just visible cameras, sonar, and radar sensors, as they do not meet many safety concerns in real conditions. Thermal, or longwave infrared (LWIR), cameras can detect and classify pedestrians in darkness, fog, and sun glares, delivering improved situational awareness in ADAS and AV. This white paper is Part 2 of the series on the technical advantages that thermal infrared cameras deliver over other technologies for autonomous driving.

  4. Part 1: Why ADAS And Autonomous Vehicles Need Thermal Infrared Cameras
    9/20/2018

    Safe advanced driver assist system (ADAS) vehicles and autonomous vehicles (AV) require the use of sensors to deliver scene data adequate for the detection and classification algorithms to autonomously navigate under all conditions for SAE automation level 5. This challenging requirement cannot be adequately met with just visible cameras, sonar, and radar sensors. As a solution, thermal, or longwave infrared (LWIR), cameras can detect and classify pedestrians in darkness, fog, and sun glares, delivering improved situational awareness in ADAS and AV. This white paper is Part 1 of a series on why thermal infrared cameras are a necessity for autonomous driving.

  5. Understanding Diamond And Its Relationship With Optics
    9/17/2018

    The combination of diamond’s broadband transparency, chemical inertness, low absorption, and highest-known thermal conductivity offers benefits for applications running at either high power levels or high-power densities.

  6. Five Trends For Imaging Technologies
    9/16/2018

    Predicting new trends in technology is not a simple task. The machine vision industry is no exception as new imaging technologies are constantly improving efficiencies, costs, and intelligence. In this white paper, Pleora Technologies offers some thoughts about the future trends in machine vision technologies.

  7. 5 mm2 Circular Photodiodes For Radiation Detection: AXUV20A Series Datasheet
    9/14/2018

    The AXUV20A Circular Photodetectors are designed specifically for radiation, electron, and photon response in the ultraviolet (UV), extreme ultraviolet (EUV), through visible and near-infrared (IR) wavelength ranges. Each circular diode has an active area of a 5.5 mm diameter with excellent sensitivity to low energy electrons.

  8. 5 mm2 Circular Photodiodes For Radiation Detection: AXUV20A Series
    9/14/2018

    Opto Diode introduces the AXUV20A Circular Photodetectors designed specifically for radiation, electron, and photon response in the ultraviolet (UV), extreme ultraviolet (EUV), through visible and near-infrared (IR) wavelength ranges. Each circular diode has an active area of a 5.5 mm diameter with excellent sensitivity to low energy electrons.

  9. Fastest Wavelength Meter For Pulsed Lasers: 871 Series Datasheet
    9/12/2018

    The new 871 Series Laser Wavelength Meter is designed to measure the absolute wavelength of pulsed and CW lasers. Available for operation from 375 to 1700 nm, the meter utilizes a unique Fizeau etalon design that guarantees a measurement accuracy of ± 1 ppm (± 300 MHz at 1000 nm).

  10. 871 Series Laser Wavelength Meter
    9/12/2018

    The 871 Series Laser Wavelength Meter from Bristol Instruments is designed to measure the absolute wavelength of pulsed and CW lasers. The wavelength meter provides the fastest measurement rates up to 1 kHz, which enables the wavelength characterization of individual laser pulses.