The key focus of this work is to implement autonomous controls onto a fixed wing Kadet MKII remote controlled aircraft to allow for localization and navigational capabilities based on sensory data from a Global Positioning System GPS and an Inertial Measurement Unit, which is capable of tracking static targets. The vehicle has been developed in conjunction with our flight expert and technical collaborator HobbyTrac. Our project has been tested via simulation and is giving satisfactory results. Currently my team and I are also focusing on autonomous takeoff and landing for the aircraft using a neural network based control mechanism. The vehicle was built entirely by my team. The vehicle has been tested underwater and is giving satisfactory results.
Surgeons Save Lives
Dr. Jonathan Diehl - Media Computing Group - RWTH Aachen University
This review article provides an overview of the contemporary research based on a tailor-made technique to understand the paramagnetic behavior of different polymer classes. The ubiquity of free radicals, including biradicals, triplet states, and point defects in polymer systems, has made EPR spectroscopy an indispensable tool in polymer science among other mainstream analytical techniques. The scope of EPR spectroscopy has broadened particularly due to the growing impulse to produce polymers with enhanced stability, to follow the charge transfer process in conducting polymers, to decipher the complex nanoscale dynamics of polymers, to fathom out the reaction mechanisms and kinetics of complex polymer reactions in a more facile way, and to carry out comprehensive structural and conformational analyses.
Specifically, we build this transform using the representation theory of the symmetric group and in this sense our technique can be considered a ''dual" algorithm to . A numerical algorithm for the explicit calculation of su n and sl n, c clebsch—gordan coefficients. Journal of Mathematical Physics, 52 2 : , Symmetry properties of product states for the system of n n-level atoms.