00862nam0 2200241 450 00002795920101105104410.020101105d1965----km-y0itay50------baengUSWeather prediction by numerical processby Lewis F. Richardsonwith a new introduction by Sydney ChapmanNew YorkDoverc1965XVI, 236 p.Con una nota introduttiva di Sydney ChapmanMeteorologiaModelli matematici551.63421Climatologia e tempo atmosferico. Previsione numericaRichardson,Lewis F.52963Chapman,SydneyITUNIPARTHENOPE20101105RICAUNIMARC000027959DISAM 551.634/2M 1037DISAM2010Weather prediction by numerical process1211332UNIPARTHENOPE01890nam 2200421z- 450 9910347056203321202102111000037714(CKB)4920000000101954(oapen)https://directory.doabooks.org/handle/20.500.12854/53519(oapen)doab53519(EXLCZ)99492000000010195420202102d2014 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierMillimeter-Precision Laser Rangefinder Using a Low-Cost Photon CounterKIT Scientific Publishing20141 online resource (X, 267 p. p.)Karlsruhe Series in Photonics and Communications / Karlsruhe Institute of Technology, Institute of Photonics and Quantum Electronics (IPQ)3-7315-0152-X In this book we successfully demonstrate a millimeter-precision laser rangefinder using a low-cost photon counter. An application-specific integrated circuit (ASIC) comprises timing circuitry and single-photon avalanche diodes (SPADs) as the photodetectors. For the timing circuitry, a novel binning architecture for sampling the received signal is proposed which mitigates non-idealities that are inherent to a system with SPADs and timing circuitry in one chip.Technology: general issuesbicsscEntfernungsmessunglaser rangefinderLaser-EntfernungsmessgerätDistance measurementLIDARphoton counterPhotonenzählerSPADTechnology: general issuesEisele Andreasauth1301482BOOK9910347056203321Millimeter-Precision Laser Rangefinder Using a Low-Cost Photon Counter3025899UNINA