A multi modal sensor analysis framework for in car mobile applications

A Multimodal sensor analysis framework for vehicular mobile applications Orhan, Fatih; Eren, Pekin Erhan; Department of Information Systems (2013) The sensing, computing and communicating capabilities of smart phones bring new possibilities for creating remarkable applications increasing the quality, safety, comfort, economy and other capabilities of cars. However, many challenges exist regarding the development of multimodal sensor analysis applications, such as proper collection of sensor values, integration of diverse libraries and tools for sharing the results. This study focuses on these challenges and aims to construct a framework that enables e...
A Mobile sensing framework for audience emotion analysis Kepucka, Eldjon; Temizel, Alptekin; Department of Information Systems (2014) The main objective of this thesis is to develop a multi-modal framework which facilitates simple data collection using mobile sensing on smartphones from an audience, for the duration of an experimental study. Current solutions primarily rely on custom mobile sensing platforms which are expensive to develop and complicated to apply. While there are a number of mobile sensing platforms developed for smartphones targeting different domains, such as transportation and air pollution they are not designed to be ...
A multi-fidelity, multi-disciplinary analysis and optimization framework for the design of morphing UAV wings Ciarella, Andrea; Tsotskas, Christos; Hahn, Marco; Werter, Noud P. M.; De Breuker, Roeland; Beaverstock, Chris S.; Friswell, Michael I.; Yang, Yosheph; Özgen, Serkan; Antoniadis, Antonios; Tsoutsanis, Panagiotis; Drikakis, Dimitris (null; 2015-01-01) © 2015 American Institute of Aeronautics and Astronautics Inc, AIAA. All rights reserved.A framework for the design and optimization of a morphing wing is presented. It allows the user to simplify the design process of a morphing UAV wing with a simple and effective interface with the possibility to easily switch between flight phases and morphing concepts. It consists of two main solvers: a high-fidelity CFD module for detailed RANS simulation and a fast low-fidelity module that solves the aeroelastic prob...
A Modular Real-Time Fieldbus Architecture for Mobile Robotic Platforms Saranlı, Uluç; Oeztuerk, M. Cihan (Institute of Electrical and Electronics Engineers (IEEE), 2011-03-01) The design and construction of complex and reconfigurable embedded systems such as small autonomous mobile robots is a challenging task that involves the selection, interfacing, and programming of a large number of sensors and actuators. Facilitating this tedious process requires modularity and extensibility both in hardware and software components. In this paper, we introduce the universal robot bus (URB), a real-time fieldbus architecture that facilitates rapid integration of heterogeneous sensor and actu...
A Discrete Event Simulation and Data-Based Framework for Equipment Performance Evaluation in Underground Coal Mining Yılmaz, Enver; Erkayaoğlu, Mustafa (2021-01-01) © 2021, Society for Mining, Metallurgy & Exploration Inc.Coal is still a part of energy generation worldwide and has a significant role in the sustainable development of countries. The amount of shallow coal deposits is getting scarce, making efficient underground mining operations crucial for both local and global economies. In underground mining operations, longwall mining is a commonly utilized method to extract deep coal deposits. One of the leading engineering goals in longwall mining is increasing the...

Citation Formats

F. ORHAN and P. E. Eren, “A multi modal sensor analysis framework for in car mobile applications,” 2013, Accessed: 00, 2020. [Online]. Available: https://hdl.handle.net/11511/69398.