Research focused on isolating the geometric factors affecting timing resolution in Time-of-Flight (TOF) detection. The findings provide quantitative insights into the optimization of coincidence timing for next-generation PET-based medical imaging.
This study evaluates the simultaneous measurement of scintillation and Cherenkov radiation to improve energy resolution. Utilizing standard CERN T9 instrumentation, the experiment provides empirical data for future lepton collider detector requirements.
A low-level Linux kernel WMI driver providing comprehensive hardware control for Casper Excalibur gaming laptops, including per-zone RGB keyboard lighting, real-time fan monitoring, and ACPI-based power plan management. Overview excalibur-wmi is a kernel driver that bridges the gap between Linux and the Excalibur laptop’s proprietary ACPI/WMI hardware interface. Written in C with supporting Python and shell utilities, it enables full software control over keyboard backlighting, system cooling, and power profiles—features typically locked behind Windows-only firmware. ...
This proposal outlines a telecommunication framework that employs magnetic field modulation to encode binary data into natural muon flux. The system is designed to facilitate data transfer through geological and aquatic barriers where electromagnetic signals are significantly attenuated.
CADES — Computational Aerodynamics Display & Evaluation System The Computational Aerodynamics Display & Evaluation System (CADES) is a state-of-the-art, high-performance 2D aerodynamics simulator designed to run seamlessly in the browser. It implements the Lattice Boltzmann Method (LBM) using a D2Q9 lattice architecture to provide real-time fluid dynamics visualization. This platform is engineered specifically for exploring airflow behaviors around a NACA 0012 airfoil, providing instantaneous feedback on pressure distributions, lift coefficients, and wake turbulence. ...
E6B Flight Computer & Vector Physics Simulator The E6B Flight Computer project is a modernization of the classic analog “whiz wheel” used by aviators since the 1930s. This interactive, browser-based tool translates mechanical slide-rule computations into dynamic JavaScript algorithms, coupled with a real-time vector physics simulator driven by Matter.js. It serves as both a practical flight planning utility and an educational visualizer for the physics of flight. Core Computational Modules Wind Triangle Kinematics The fundamental problem the E6B solves is the calculation of heading and ground speed given a desired true course, true airspeed (TAS), and forecast wind conditions. ...
NAPS — Neural Airfoil Profile Synthesizer The Neural Airfoil Profile Synthesizer (NAPS) is a highly sophisticated, browser-native computational tool that bridges the gap between classical aerodynamics and modern machine learning. NAPS is engineered to dynamically generate standard NACA 4-digit aerodynamic profiles by utilizing an integrated Artificial Neural Network (ANN) to solve the inverse aerodynamic design problem. Instead of manually iterating geometry to find a desired lift coefficient, aerospace engineers can specify a target theoretical Lift Coefficient ($C_L$), and the neural network will synthesize the exact geometric parameters required. ...
Universal Electronic Flight Bag (UEFB) The Universal Electronic Flight Bag (UEFB) is an advanced, network-agnostic cockpit companion application tailored for serious flight simulation pilots. Engineered to operate alongside platforms like Microsoft Flight Simulator (MSFS) and X-Plane, UEFB amalgamates real-time telemetry, operational flight planning, global ATC network data, and aeronautical calculations into a single, cohesive interface. System Architecture and Integrations SimBrief OFP Parsing UEFB connects directly to the Navigraph SimBrief API. By fetching the latest Operational Flight Plan (OFP), the system parses raw XML/JSON outputs to construct an interactive, dynamic flight manifest. This includes: ...