Special purpose vehicles for sustainable finance of innovation in Romania - the case of intelligent robotic systems

The intelligent robotic systems IRS integrates artificial intelligence (AI) and intelligent autonomous control based on special features like: decision making, multispectral sensorial information, advanced monitoring and execution capabilities. There is an impressive rate of success of IRS projects that benefits from the Industry 4.0. The design of strategies for IRS financing is very important for Romania, because the governmental funding is far from the critical mass and the access to capital market is insufficient. In this contribution the interest is to design special purpose vehicles (SPV) for sustainable finance of innovation in the case of IRS, adapted to Romanian emerging market, like venture capital financing (VCF) or thematic exchanged traded funds (ETF)

Robot Extenics Control Developed by Versatile, Intelligent and Portable Robot Vipro Platform Applied on Firefighting Robots

The firefighting robot control using intelligent Extenics control interfaces ICEx developed by versatile, intelligent and portable robot VIPRO platform is presented. Subsequently, VIPRO platform architecture, the innovative versatile, intelligent, portable platform, is applied on firefighting robots VIP- FiR&FiTRo, Extenics intelligent control and Universe of Discourse in an Extenics Transformation are detailed.  The Extenics Control Method with Fuzzy Smoothing is developed and tested using a simple DC motor configuration in the Matlab / Simulink programming environment. A sequence for the Intelligent Control Interface Code integrated into the VIPRO is presented. The results prove the possibilities for tweaking and optimizing by intelligent Extenics control developed on VIPRO platform in order to obtain improved performance are virtually limitless

Aerial Mechatronic Systems for Collection of Atmospheric and Environmental Data

Currently, atmospheric and environmental monitoring also requires approaches based on robotic aerial mechatronic systems that can offer the advantages of onboard intelligent sensors. The accelerated dynamics of climate change generate risks that can be prevented by the acquisition, storage, transmission and processing of data taken under static, quasi-statistical and kinetic conditions at lower costs compared to piloted aircraft. The article presents an approach on atmospheric and environmental monitoring using a robotic aerial mechatronic system based on an airship UAV and a classic airborne UAV, launched using a ground-based launch device