Cellular device capture and monitoring.
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Updated
Jun 12, 2020 - C++
Cellular device capture and monitoring.
Eclipse TITAN test port for E1 timeslots; mirror of https://gitea.osmocom.org/ttcn3/titan.TestPorts.E1
Wireless project that shoes the design methodology for high quality communication (signal-to-noise ratio) between base station and clients using linear phased array
Modeling and performance evaluation of an opportunistic cellular network. Developed using Omnetpp-6.0.1
A fully unsupervised learning method that encodes cell phenotypes, morphologies, and cell-to-cell interactions from multiplex tissue images. For each cell, a contextual embedding is created.
This mini-project is for test using `DEVIO NB-SHIELD I` and AIS NB-IoT network by logging cellular information with the GPS coordinate.
This code is for an old project I made over twenty years ago in 1997. In the 80s & 90s, Cellular phones were mostly analog meaning you could listen in on phone calls. (1983 to 2008) Most cell phones were in peoples cars, and as they drove around they would jump from cell tower to cell tower You can read more about (AMPS) Advanced Mobile Phone Sy…
Osmocom TTCN3 tests suites; mirrored from https://gitea.osmocom.org/ttcn3/osmo-ttcn3-hacks
Osmocom Transceiver used by GSM Base Transceiver Station (BTS); mirrored from https://gitea.osmocom.org/cellular-infrastructure/osmo-trx
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