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krakensdr_pr
Passive Radar Code for the KrakenSDRKiwiSDR_PCB
KiCAD PCB files for KiwiSDR project including active antenna and bias teeInvariantEKF_GNSS_IMU
FlyDog_SDR_GPS
Forked from Beagle_SDR_GPS for specialized add-on SDR board with 16-Bit ADC which improved from KiwiSDR.PPP_AR
Multi-GNSS Precise Point Postioning with Ambiguity ResolutionOFDM-Joint-Radar-Communications
DIC
Digital Image Correlation. OpenCV with Python wrapperIntegratedNavigation
integrated navigation using INS/GNSSparallella-platform
GNSS-Software-Defined-Radio
GPS software-defined receiver (SDR) which acquires and tracks a single GPS L1 C/A signal.E203_dma
RIEKF-KITTI
Left/Right Invariant Extended Kalman Filter Localization for KITTI Dataset.insar
Utilities for SAR and InSAR processingMCUProgFast
MCU programmer using CMSIS-DAP (DAPLink), using Keil MDK's *.FLM Flashing Algorithmslam_and_leetcode
一个SLAM算法方向学生的痛苦之旅,包括leetcode刷题、c++面经和SLAM相关知识点。欢迎协作!zjv-core
10 stage RISC-V (riscv) core capable of booting RV64 Linux and Debian on FPGALivox_Fisheye_Fusion
GNSS_Programming
Continuing programming of GNSS algorithm and applicationesp32-ice40up5k
Files for a dev board containing an ESP32-Wrover module and an ice40up5k-sg48 FPGAuav-solar-sensor-angle
Codes to calculate solar-sensor zenith and azimuth angles directly from hyperspectral images collected by UAV. Works only for UAVs that have high resolution GNSS/IMU unit.FAST_LIO_Modified
Applied to the modified livox_ros_driver pointcloid2 formatNavigation_GNSS
TransmetaCrusoeExposed
Crusoe Exposed: Transmeta TM5xxx Architecture - text from an anonymous reverse engeneerervins_mono_noted
vins_mono application 计算机视觉lifecoxgraph
A multi robot collaborative dense SLAMrp2040-base-pcb-template
A template EasyEDA project with Raspberry Pi RP2040, USB-UART Bridge, 16MB Flash and 800mA LDO optimised for JLCPCB PCBA. 🔌 🔨GNSS-spoofing
A spoofing demonstration using GNSS and GNSS-SDR-SIMSHA256_Hardware_Accelerator
SHA256 Hardware Accelerator Synthesizable Verilog RTLad936x_lvds_if
ad936x lvds interfacefyp-rca-taiga
GNSS_INS
学习严老师的C++代码,使用QT重新编译UBX_Decode_ESF-NAV
UBX_Decode_ESF-NAVFreelance_SDR_FPGA_2019-FaultTolerant
Open Source HDLC and fault tolerant frame syncronization IPs using VHDLPipelined-ALU
This module is a Verilog Implementation of a fully pipelined Arithmetic Logic Unit which is capable of performing all sorts of computations on Integers. The ARM 7 instruction set architecture is followed in the implementation which includes all of the standard operations with a control on weather to write the data back to register file, or not. It also takes care of the dependencies by using data forwarding methods.useful-link-for-me
Usefule link about MCU/FPGA/CPU/RTL designhlsVHDL_fixed_point_math
SpinalHDL-FPGA-IPbox
SIFT3D-installers
Installers for SIFT3D on various platforms.Ace21064
RISCV Superscalar Microprocessor Implementionfpga-cnn-accelerator
FPGA-Vector-Addition-RTL-VHDL
First translation of C program for vector addition into RTL VHDLEmLab_Amp_HW-lpc4370
Hardware for 80dB ampphased-array-Mux-FPGA
Verilog 93 implementation of a special multiplexer for use in phased arraysgps-hw3
This repository contains MATLAB code used to complete HW3 for Fundamentals of GPS.verilog-advanced-synthesis-cookbook
interferometer
Verilog 12-channel intensity correlator for FPGAsROS-NAVIGATION-WITH-IMU-SENSOR-AND-MAGNETOMETER
STM32MP1_TestBoard
hgdb-rtl
RV32I-Single-Cycle
This repository contains the implementation of a single cycle based on RISC-V ISA and implemented on `LOGISIM`gnss_compass
2个UBX M8T实现双天线侧向功能ula32bits
Implementation of a 32-bit ULA using VHDL.multi_layer_perceptron_verilog
ArmleoCPU
RISC-V RV32IM compatible CPU created from scratch. Includes MMU and D/I-CachesCassieHardware
Stereo-Matching
Rectify Difference in Vertical Direction in Binocular Cameras based on Fearture Points Matching. As a consequence, the Cloud Points and Depth Map would be calculated.gnss_imu
A repository for launching GNSS/IMU Tightly-coupled localization method aided with fisheye camera on ROSVerilog-Register-File-and-ALU
RF(register file) and ALUrk-open-docs
internal docs8_bit_processor
this repository gives an overview and step by step description on how to make an 8 bit processor using verilog HDL on an FPGA.Video_Analytics
Developing sensor using Computer Vision to monitor movement and produce vibration trace of critical bridge elements.GNSS_SDR-2
rtk_gps_src
Plex-Automatic-Pre-roll-GUI
This is the new and improved Plex Automatic Pre-roll script with a GUIM.A.Nt.I.S
Self Driving Car project using MATLAB and RWTH Mindstorms NXT Toolbox for LEGO® Mindstorms NXTSPU_Multimedia_Processor
VHDL Model of a Cell Processor Synergistic Processing UnitJLKCmdr
J-LINK Commander like tool for JLink, adding HardFault diagnosis and SVD-based peripheral register access.piocamera
CAMERA-IF for Raspberry Pi Pico (RP2040)RISC-V_Vector_Accelerator_For_ML
hlsVHDL_ethernet
HamPWR-lpc4370
USV board for HAMNET NodesSDRAM-Controller-1
Verilog 拥有极简用户接口的 SDR SDRAM 控制器SIFT-1
SIFT VeriloghlsVHDL_fpga_interconnect
matlabINS
radar_slam
hlsVHDL_dynamic_simulation_library
nnls_solver
generic non-negative least squares solverVerilog-Program-Counter-and-Shifter
PC(Program counter) and SHIFTER(arithmatic and logical)lidar-mapping
High precision mapping using LIDAR, GNSS and IMUGPSDO_by_DF4IAH
GNSS or DCF77 disciplined OCXO based on hardware by DL4ZAO and DL7UKM.Detect-Interference-on-GNSS-Signals
Apply LSTM to Detect Interference in Satellite SignalsBenchmark-of-RISC-V-INSTRUCTIONS-concerning-power-consumption-
aim is straight forward -> the power analysis of each RISC-V instructions , such that in future an extremely superior RISC-V ISA core can be designed , that can give best performance in both prospective -> highest speed during execution of any task and along with lowest power consumption as well !Monocular_ORB_SLAM2_System
ArmleoCPU-1
Development branch: Multicore RV32IMA w/ MMU, Cache capable of booting Linux. two stage: RISC-V RV32IM compatible CPU created from scratch. Includes MMU and D/I-CachesMatrix-Multiplication-VHDL
Multiplying a square matrix on hardware using one clock cycle and a 3-stage pipeline.RV32IMF-MicroGT_01
A low power, 6 stage in order pipeline, 2 privilege level (M and U), clock cicle of 100MHz, 32 bit RISC-V softcore for FPGA. Written in SystemVerilog.RPX-100-SDR
The concept of the WRAN software uses the IEEE 802.22 frame structure for prototyping to make use of super frames and preambles for cognitive channel management, which allows a dynamic resource allocation between base stations, but also between multiple users at one base station. Orthogonal Frequency Division Multiple Access (OFDMA) is used in the upper layers, as Modulation techniques QPSK, 16-QAM and 64-QAM is supported. The software will support a connection-oriented MAC layer with cognitive functionality for dynamic and adaptive scheduling and management of coexistence of base stations in the same time-frequency domain (super frames).Graph-SLAM
simultaneous localization and mapping (SLAM) - To build a map of the environment and to simultaneously localize within this map for mobile robots navigating in unknown environments in absence of external referencing systemsfpga-6dof-inverse-kinematics
This implementation is on Xilinx Artix-7 100T FPGA with Vivado using Verilog and hosts the RISC-V processor. It introduces a hardware synthesized inverse kinematics algorithm that controls 6 degrees of freedom robotic arms and a sensor-based automatic control system. All systems are hardware-synthesized and work simultaneously. (2022-06-25~ (If I have some free time, I'll start working on it.))gnss_multipath_mitigator
Bfloat16-Floating-Point-Arithmetic-Unit
Design and implementation of a pipelined Bfloat16 Floating Point Arithmetic Unit using VHDL. This unit can perform addition, subtraction, multiplication, division and fused multiply-add/subtract operations. Bfloat16 is a 16-bit floating-point data type developed at Google and currently used in their Tensor Processing Units (TPU's). Thanks to its dynamic range, the Bfloat16 format can be useful for Machine Learning applications that work well with low-precision representations of data. This Bfloat16 unit will be used to add custom RISC-V floating-point instructions to a RISC-V processor that can potentially be used as a hardware accelerator for Machine Learning applications. This model will also be tested on and FPGA and possibly modified to achieve optimal performance. Work is still in progress.Love Open Source and this site? Check out how you can help us