Mobile phone controlled four-legged walking robot with speed and direction control Related Courses: In recent years, practical mobile robots have been successfully used in controlled environments such as factories, offices, and hospitals, as well as outdoors on prepared surfaces and terrain with minor irregularities. The most common type of robot has rigid body and is driven on wheels or tracks. However, for the operation of mobile robots in extremely rough, uneven terrain has been impossible or unreliable at best.
Projects have been performed for a variety of companies on topics from practical applications of limited feedback communication, adaptive modulation techniques and algorithms, distributed antenna systems, base station cooperation, massive MIMO communication, remote parking enforcement, as well as technology surveys and due diligence.
Leverages my expertise in signal processing, digital communication, navigation, and software radio. Senior Consultant, Iospan Wireless Inc. Proposed framing structure and multi-rate coding scheme.
Designed bit-accurate algorithms for ASIC implementation. Included support for spatial multiplexing with multiple substreams, transmit diversity, adaptive modulation and coding, retransmission, and multiple service flows. Developed narrowband MIMO prototype and channel measurement system.
Assisted in physical layer definition, system architecture, and intellectual property development. During my leadership term, Vanet research paper center was comprised of about twenty faculty, one hundred and forty graduate students, three permanent staff, twelve industrial affiliates, and expenditures of around five million dollars per year.
I learned a great deal about the dual role played by many university leaders, external and internal. I also received hands-on training in working with diverse faculty, dealing with difficult staff situations, and interacting with university research offices.
One key insight for me was learning how to manage relationships with companies and sell the research capabilities of my team, just not my own accomplishments.
I also learned about the different ways that centers can be funded, and how they can work in a symbiotic way with the departments that house the faculty to avoid competition. This is an initiative officially part of the WNCG, but is operated like a second separate center.
My idea was to build a research center that brought together sensing, communications, and data analytics with applications to automotive systems. I created a low-overhead organization, where company funds are used towards research.
This was an organic process that involves members who believe in the vision and work together to achieve common goals. I learned about the value of marketing the program and capabilities of all members.
In particular, how to talk with faculty, understand their research, and translate it into ideas for the companies. In essence, I realized how to build a research center around an idea, and obtain stakeholders who bought into that vision with real money, and faculty who worked together to realize that vision.
Mentioned in the Congressional record.
Finalist for the European Inventor Award Forenza as well as M. Sydney - Fellowship:Vol.7, No.3, May, Mathematical and Natural Sciences.
Study on Bilinear Scheme and Application to Three-dimensional Convective Equation (Itaru Hataue and Yosuke Matsuda). Paper Publication One of our fundamental supports for research scholars is paper publication in high impact factor journal.
Being members in + journals, we have an immense knowledge about journal paper writing and publication. Home Download Help Resources Extensions FAQ References Contact Us Donate Models: Library Community Modeling Commons User Manuals: Web Printable Chinese Czech.
The Universal Mobile Telecommunications System (UMTS) is a third generation mobile cellular system for networks based on the GSM standard.
Developed and maintained by the 3GPP (3rd Generation Partnership Project), UMTS is a component of the International Telecommunications Union IMT standard set and compares with the CDMA standard set for networks based on the competing .
Vehicular Ad-hoc Network (VANET) is the most studied data delivery methods in vehicular communication (Yousefi et al., ).VANET entails the creation of an ad-hoc based communication mesh network of highly dynamic vehicular nodes. Rank of Keywords of International Conferences on August 9, LNCS 37 SIGGRAPH 32 CRYPTOGRAPHY: 31 ENERGY: 30 AAAI 28 KDD