75 skills found · Page 1 of 3
maxritter / Diy ThermocamA do-it-yourself thermal imager, compatible with the FLIR Lepton 2.5, 3.1R and 3.5 sensor with Arduino firmware
detecttechnologies / Thermal Image AnalysisDesktop tool for analysis of SEQ/FFF/RJPG thermographs
Dogiye12 / Urban Heat Island Mapping With ML Thermal ImageryThis project maps Urban Heat Islands using synthetic thermal imagery and machine learning in Google Earth Engine. It generates over 100 simulated temperature points, trains a Random Forest model, and visualizes urban heat patterns for environmental analysis and urban planning.
assalas / Pcb Designer AI Agent🤖 Intelligent AI-powered PCB design automation tool using machine learning for component placement, routing optimization, and signal integrity analysis. Supports KiCad, Altium Designer, and Eagle CAD integration.
dronemapper-io / CropAnalysisA jupyter notebook with crop analysis algorithms utilizing digital elevation models and multi-spectral imagery (R-G-B-NIR-Rededge-Thermal)
s-du / ThermogramA powerful app for processing DJI infrared (IR) images, featuring advanced thermal analysis, conversion, and visualization capabilities. Supports DJI Matrice 4 (M4T), Matrice 30 (M30T), Mavic 3 (M3T), and Mavic 2 Enterprise Advanced drones
nasa / TSATThe Thermal Systems Analysis Toolbox (TSAT) is a MATLAB/Simulink based tool for modeling and analysis of dynamic thermal systems involving heat transfer. It is best suited for 1-D and 2-D heat transfer involving solid planar and cylindrical structures, however, the toolset is more extensive than this. The tools enable consideration of conduction, convection, and radiation boundary conditions. Some advanced capabilities are provided when it comes to approximating conduction within non-isotropic materials, structures with material transitions, and structures with time-varying temperature dependent material properties. Numerous tools are available to facilitate the construction of modular models of thermal systems and their integration with larger system models.
mgroupntua / FEMFinite element analysis library for computational mechanics applications
cghiaus / Dm4bemDynamic models for building energy management
VidyaChhabria / ThermEDGe And IREDGeEncoder-decoder based generative networks for static and transient thermal analysis
marcinkopaczka / ThermalfaceprojectThermal face detection, tracking and analysis
AlishKanani / MFITSource code for Multifidielity Thermal Modeling for 2.5D and 3D Multi-Chiplet Architectures
Code-XYZxyz / Real Time Interferometric Measurement Control For Photopolymer Additive ManufacturingThis is a comprehensive MATLAB-based software platform developed for real-time measurement and feedback control of a custom mask-projection photopolymerization based additive manufacturing system (referred as "ECPL", i.e., Exposure Controlled Projection Lithography) using a lab-built interferometry (referred as "ICM&M", i.e., Interferometric Curing Monitoring and Measurement). A graphical user interface using the graphical user interface development environment (GUIDE) of MATLAB was created to implement the ICM&M method for the ECPL process. The software interfaces with the hardware of the ECPL system’s ultraviolet lamp and DMD, and the ICM&M system’s camera. It was designed to streamline the operation of the ECPL process with the aid of parallel computing that implements online both the ICM&M acquisition and measurement analysis as well as the feedback control method. The application logs the acquired interferogram video data, performs numerical computations for the ICM&M measurement algorithms and control law, saves the real-time data and measurement results for all voxels in the region of interest. Meanwhile, it displays interferogram frames and visualize the photocuring process without a substantial sacrifice in temporal performance of other key functions such as data acquisition and measurement & control analysis. The software could be extended to real-time process measurement and control for other additive manufacturing systems, for example, metal based additive manufacturing aided by in-situ thermal images analysis.
Akou-stack / Phonon Thermal TransportThis repository contains 'sample' LAMMPS input scripts for molecular dynamics thermal conductivity simulation and phonon mode analysis, various python post processing scripts, and other other key files, including initial atomistic model of stochastically created polycrystalline graphene, that work as input for the different scripts.
USArmyResearchLab / ParaPowerBack of the Envelope Thermal Analysis
Huber-group-EMBL / NPARCNonparametric Analysis of Response Curves from Thermal Proteome Profiling Experiments
cqjro / Battery Thermal Runaway AnalysisInvestigation of Thermal Runaway Models in MCMB Lithium Ion Batteries
DatDat8 / Estimating The Dynamic Thermal Capacity Of Overhead Transmission Lines Case Study 220kV V N Tr Power system components usually have standard static ratings that determine the load constraints. The term ‘‘rating’’ in the power line system refers to the maximum allowable conductor current that raises the line temperature without infringing ground clearance and causing the loss of conductor tensile strength due to annealing. Traditional, a load-ability concept established on the basis of the Overhead Transmission Lines static thermal rating is referred to the worst-case conditions (high ambient temperature, full sun and low wind speed). It is one of the reasons, why power systems do not use all of their potential transmission capacity. In fact, the real-rating capacity of an overhead line increases when wind speed is high, due to the cooling caused by wind in the distribution lines. Dynamic line rating solution allow assets real weather conditions and calculating the real capacity of transmission lines. Thus, when planning wind power integration, if dynamic line limits are considered instead of the conservative and static limits, estimated capacity increases. Research has shown that actual line ratings are higher than static rating most of the time. The potential of using the dynamic line rating solution help to increase the reliability of power systems is therefore significant. Almost every country has begun the process of increasing the integration of intermittent sources like wind power into their network, and consequently, the dynamic rating technology has become increasingly important and is incorporated in the smart grid vision. This report provides a comprehensive study of the literature on dynamic line rating. Next, the current constraints on the power transmission grid were identified, which are related to the history and geography of Vietnam. On this basis, several suggestions were put forward to improve the power transmission grid in Vietnam, namely, developing renewable energy sources, introducing Dynamic line rating solution if conditions permit. Different scenarios for analysis of real time weather data and ways of application of Dynamic Rating to the typical power line system 220 kV Vantri-Chem 17 km are taken into consideration. The study provides a reference for the future development of the smart-grid concern in Vietnam. Keywords: Dynamic Rating; Thermal; Load-ability; Ampacity; Clearance, Overhead Conductor; Sag; Tension; Thermal capacity.
georgeslabreche / Spacecraft Thermal Transient AnalysisR7019R Spacecraft Subsystems. Thermal transient analysis of a satellite.
Nelvinebi / Land Surface Temperature Mapping Using MODIS DataThis project simulates Land Surface Temperature (LST) mapping using synthetic MODIS data. It calculates LST from thermal bands and NDVI using a simplified split-window algorithm, enabling spatial visualization and analysis of surface temperature patterns across a synthetic landscape.
