Ieee Research Paper On Night Vision Technology

  • 1.

    A. Rogalski, “History of infrared detectors”, Opto-Electron. Rev. 20, 279–308 (2012).ADSCrossRefGoogle Scholar

  • 2.

    www.atncorp.com

  • 3.

    International military catalogue — Night vision products, ITT Night Vision, 2010Google Scholar

  • 4.

    www.nightvision.com

  • 5.

    www.vectronix.ch

  • 6.

    www.optixco.com

  • 7.

    www.inframet.pl/computer_simulators.htm

  • 8.

    The Avionics Handbook, edited by Cary R. Spitzer, Boca Raton, 2001.Google Scholar

  • 9.

    www.nightvisioncn.com/sdp/625512/4/cp-3235901/0/Evaluating_Night_Vision.html

  • 10.

    en.wikipedia.org/wiki/Image_intensifier

  • 11.

    Image Intensifiers catalogue no. TII 0004E02 IP, Hamamatsu Photonics K.K, 2009Google Scholar

  • 12.

    www.nightvision.com/products/military/case_study-gen3.htm

  • 13.

    www.photonis.com/en/night_vision

  • 14.

    aunv.blackice.com.au/cgi-bin/nightvision/forum?index=discussions&story=omni

  • 15.

    www.exelisinc.com/News/PressReleases/Pages/Omni-VIII.aspx

  • 16.

    L. Bosch, “Tube performance that matters”, Proc. SPIE4128, 65–78, (2000).ADSCrossRefGoogle Scholar

  • 17.

    MIL-I-49453 CR, Image intensifier assembly, 18 millimiter microchannel wafer, MX 10130/UV, 1989Google Scholar

  • 18.

    www.colutron.com

  • 19.

    www.stanfordcomputeroptics.com

  • 20.

    Introduction to scientific imaging, Roper Scientific Inc., 2002Google Scholar

  • 21.

    www.night-tronic.de/Seite-116

  • 22.

    www.vectronix.ch/#/en/news_press/current_news/indotarsius

  • 23.

    www.sidley.com/db30/cgi-bin/pubs/Statement_of_Facts.pdf

  • 24.

    nightflightconcepts.com/pdf/LaserDefense/LaserArmorLIF_Datasheet_v4_LowRes.pdf

  • 25.

    www.angenieux.com/zoom-lenses/index.php?rub=5

  • 26.

    www.thalesgroup.com/TopOwlH.aspx

  • 27.

    H. L. Task, Night vision devices and characteristics, Amstrong Laboratory Report ASC, 91-2961 (1992).Google Scholar

  • 28.

    www.aviationtoday.com/av/categories/military/Two-Ways-to-See_1159.html

  • 29.

    MIL-STD-3009, Lighting, Aircraft, Night Vision Imaging System (NVIS) Compatible, 2001.Google Scholar

  • 30.

    www.transvaro.com.tr

  • 31.

    www.vectronix.ch/#/en/products/handheld_equipment/image_intensifiers

  • 32.

    MIL-G-49313CR, Goggles — night vision AN/PVS-7B, 1989Google Scholar

  • 33.

    MIL-A-49425(CR), Aviator’s night vision imaging system AN/AVS-6, 1989Google Scholar

  • 34.

    MIL-PRF-49082E, PERFORMANCE SPECIFICATION VIEWER,DRIVER’S, NIGHT VISION, AN/VVS-2(V, 1999Google Scholar

  • 35.

    MIL-PRF-49063E, NIGHT VISION SIGHT, INDIVIDUAL SERVED WEAPON AN/PVS-4, 1999.Google Scholar

  • 36.

    MIL-PRF-49065F, NIGHT VISION GOGGLES, AN/PVS-5, 1999.Google Scholar

  • 37.

    MIL STD 1858, Image intensifier assemblies, performance parameters of, 1983.Google Scholar

  • 38.

    MIL-PRF-49052G “Image intensifier assembly, 18 millimiter microchannel wafer, MX-9916/UV, 1999.Google Scholar

  • 39.

    MIL-PRF-49428 “Image intensifier assembly, 18 millimiter microchannel wafer, MX-10160/AVS-6, 1995.Google Scholar

  • 40.

    MIL-STD-1858, Image intensifier assemblies, performance parameters of; 1981Google Scholar

  • 41.

    MIL-I-49453 CR, Image intensifier assembly, 18 millimiter microchannel wafer, MX 10130/UV, 1989Google Scholar

  • 42.

    GOST 21815.0-86-GOST 21815.17-86 Image intensifier tubes — Measurement methods of optical and photometric parameters, 1987 (in Russian).Google Scholar

  • 43.

    Stanag no. 4348, Definition of nominal static range performance for image intensifier systems, 1988 (annulled in 1996).Google Scholar

  • 44.

    STANAG No. 4351, Measurement of the minimum resolvable contrast (MRC) of image intensifiers, 1987 (annulled in 1996).Google Scholar

  • 45.

    Tender Enquiry No 2/Tech/2007(1)-for Night Vision Device, Ministry of Home Affairs Government of India.Google Scholar

  • 46.

    Request for Proposal (RFP) No: PC-28706/ACSFP/PNVB/A/ARTY dated 01 Dec 10., GOC-in-C, Northern Command, C/o 56 APO, India.Google Scholar

  • 47.

    Global tender inquiry no TE No. U.II. 871/2010-11-PROC-IV dated the 02 August, 2010, India.Google Scholar

  • 48.

    International Traffic in Arms (ITAR) per title 22, Code of Federal Regulations (CFR), Parts 120-130.Google Scholar

  • 49.

    EC Regulation No WE 428/2009: Community regime for the control of exports, transfer, brokering and transit of dual-use items.Google Scholar

  • 50.

    Addendum to GEN-09-ASAM-01, Aviation Safety Action Message, Updated Night Vision Device (NVD) Maintenance, 151130Z OCT 09, 2009.Google Scholar

  • 51.

    www.hoffmanengineering.com

  • 52.

    www.inframet.com

  • 53.

    K. Chrzanowski, “Present status of night vision metrology”, OPTRO 5th Int. Symp. on Optronics in Defence and Security, Paris, 2012.Google Scholar

  • 54.

    www.nightvisionstore.com

  • 55.

    www.angenieux.com/zoom-lenses/index.php?txt=38

  • 56.

    www.armedforces-int.com/suppliers/defence-vision-systems.html

  • 57.

    www.emccd.com/what_is_emccd

  • 58.

    www.intevac.com

  • 59.

    www.photonics.com/Article.aspx?AID=25144

  • 60.

    www.flir.com/cvs/cores/view/?id=54460

  • 61.

    www.photonis.com/en/ism/106-l.html

  • 62.

    www.jayceooi.com/2009/10/04/tft-lcd-vs-oled-which-one-to-choose/

  • 63.

    www.printedelectronicsnow.com/articles/2012/06/emagins-amoled-displays-enjoy-success-in-military

  • 64.

    C.V. Driessche, F. Coursaget and F. Berthault, “IR-CMOS fusion for night vision”, 5th Int. Symp. on Optronics in Defense and Security, Paris, 2012.Google Scholar

  • 65.

    www.microoled.net/news/news-from-microoled

  • 66.

    www.insighttechnology.com/products-insight/fgs

  • 67.

    airsoftinformations.blogspot.com/2010/04/envg-enhanced-night-vision-goggle-anpsq.html

  • 68.

    www.sidley.com/db30/cgi-bin/pubs/Statement_of_Facts.pdf

  • 69.

    www.ulis-ir.com

  • 70.

    www.globalsecurity.org/military/systems/ground/envg.htm

  • 71.

    www.altaoptica.ru

  • 72.

    www.obzerv.com

  • 73.

    www.sensorsinc.com/LADAR.html

  • 74.

    S. May, S. Fuchs, D. Droeschel, D. Holz, and A. Nuchter, “Robust 3D-mapping with time-of-flight cameras”, IEEE/ RSJ Int. Conf. on Intelligent Robots and Systems, St. Luis, 2009.Google Scholar

  • 75.

    www.angenieux.com/zoom-lenses/index.php?txt=38

  • 76.

    J.L. Craig and H.L. Task, “Development and evaluation of the panoramic night vision goggle”, Air Force Research Laboratory Human Effectiveness Directorate, Report DTIC no. ADA400115, 1999.Google Scholar

  • 77.

    Peter L. Marasco and H.L. Task, “Optical characterization of wide field-of-view night vision devices”, Air Force Research Laboratory Human Effectiveness Directorate, Report DTIC no ADA430272, 1999.Google Scholar

  • 78.

    Eric E. Geiselman and Jeffrey L. Craig, “Panoramic Night vision goggle update”, Air Force Research Laboratory Human Effectiveness Directorate, Report DTIC no ADA430243, 1998.Google Scholar

  • 79.

    en.wikipedia.org/wiki/Night_vision_device

  • 80.

    www.elbitsystems-us.com/sensor-electro-optics-solutions/land/soldier/helmet-mounted/quadeye

  • 81.

    www.insighttechnology.com/image-intensified-systems-products

  • 82.

    www.nightvisionstore.com/Armasight%20SPARK%20Night%20Vision%20Monocular.htm

  • 83.

    en.wikipedia.org/wiki/OLED

  • Please, wait while we are validating your browser

    0 comments

    Leave a Reply

    Your email address will not be published. Required fields are marked *