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Ich bin kein Berliner. A Summary for My Study and Work in the Last Two Years in Berlin, Germany. Xiaokai He Oct 28, 2010. Outline. Lectures Practical Training Bachelor Thesis Internship. Lectures - Outline. Bachelor Part Distributed Systems and Algorithms Cognitive Neuroscience
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Ich bin kein Berliner A Summary for My Study and Work in the Last Two Years in Berlin, Germany Xiaokai He Oct 28, 2010
Outline • Lectures • Practical Training • Bachelor Thesis • Internship
Lectures - Outline • Bachelor Part • Distributed Systems and Algorithms • Cognitive Neuroscience • Mobile Communication • Open Communication System • Network Protocols and Architectures
Bachelor Part • Software Technical • Project: Pattern Recognition with Neuronal Network • Praxis of Programming • Calculability and Complexity • Logic and Calculi
Distributed Systems and Algorithms • Distributed Systems • Basic architecture and functions of distributed systems, distributed algorithms, data systems, authentication, replication and transaction. Examples are implemented with JavaRMI and .NET. • Distributed Algorithms • Echo, Selection, Scheduling, Exclusion, Clean, Time, Snapshot, Fault-Tolerance, Transactions, Security
Cognitive Neuroscience • How do we encode, process, store the information and wake them up? • Which kind of information in a photo do we use, when we feel something, or solve problem, or remember? • How can the body and brain have emotion, memory and feel the world? • How is the information in body forwarded? How do the nerve cells communicate with each other? What is the relation between hormone level and behavior?
Mobile Communication • Digital Mobile Radio Communications • Advanced Topics in Wireless Communications • Review of Paper - “A Framework for Uplink Power Control in Cellular Radio Systems” • Wireless Communication Systems • Communication Systems - Mobile Communication Networks • Ad-hoc and Sensor Network • Review of Paper "Four-Bit Wireless Link Estimation"
Open Communication System • Advanced Communication Systems • Mobile Communications and Ubiquitous Computing • Rich Internet Applications: a survey • Product Development in the Telecommunication and IT World • Advanced Internet Services
Vehicular Communication Systems • Driver Assistent Systems • Vehicle-2-X Communication • Information Technology in Motor Vehicle • Autonomous Vehicle • Fault Tolerance in Autonomous Vehicles
Network Protocols and Architectures • Network Protocols and Architectures • Internet Routing • Internet Security • Seminar: Review of Paper “Secure Crash Reporting in Vehicular Ad hoc Networks”
Practical Training • Router Lab • Mesh Lab
Bachelor Thesis • Prototypic Implementation and PerformanceEvaluation of a Cellular Network BasedVehicular Status Data Transmission System • Vehicular Live Data Collection & Processing • CAN • GPS • Vehicular Communication Systems(Car2X communication) • Vehicular to Infrastructure Communication using UMTS • Logging & Live Monitoring Systems • Test Monitoring • Log Data Acquisition and Processing
Usage Domain • In-Car Communication • Car-2-X Communication • Monitoring and Logging the Vehicular Status during Field Test • Analyze the Test Results with Help of the Logged Data
Collection of base data logs (CAN, GPS) for evaluating vehicular applicationsi.e. live monitoring data system (LMDS) • Configuration and establishment of middleware (VAPI, OSGI) for test drives • Cross-platform middleware (Cockpit & S-Class and development laptop) • Proof of concept for LMDS • Base for further development of the simTD log data processing systems see figure
Conclusion • The Concept of a Live Monitoring Data System is proved • Both the UMTS technology and the in vehicle communication channel will be enough to use under realistic traffic conditions • System can be used as a monitoring system for the test field • Further work • Implementation and deployment of the UMTS part • Further usage of the logged data • Implementation of further usage of the downlink
Internship • Fraunhofer FOKUS • Future Internet and Autonomic Communication • Next Generation Network Architecture and Infrastructures • Media Interoperability: Media 3.0 • Model Driven Engineering and Testing • Automotive Systems • Web of Services und Communities • Architectures und Services in eGovernment
ASCT & DCAITI • Automotive Services and Communication Technologies • The Daimler Center for Automotive Information Technology Innovations
Goals • Increased road safety and improved efficiency of the existing traffic system through the use of car-to-x communication • Definition and validation of a roll-out scenario for the identified functions and applications for scientific questions through practice-oriented experiments and field operational tests • Consolidation of car-to-x functions from the categories of traffic efficiency, driving and safety as well as value-added services • Definition, analysis, specification and documentation of those functions that are to be developed and tested, as well as of the resulting requirements for the overall system for selected functions and tests within sub-project 1 • Development of test and validation metrics and methods in each phase of the overall system development in order to allow measurement and evaluation of the results • Consolidation and harmonisation of requirements from the perspective of feasibility and performance as well as their compatibility of requirements within the sub-projects • Verification of functions and requirements within the context of individual milestones
Thank you for your attention! xiaokai.he@sjtu.edu.cn ? ? || /* */