[003] ~ Key people
The profiles we are constantly looking for:

investors ,customers ,partners ,innovators ,creators ,explorers ,defence

Our talent sources:

UCLA, Los Angeles, California, USA - several UAV projects, center for embedded networked sensing, key location *(21)*
~ ~ ~ Internet in the Sky project, funded by The Office of Naval Research
~ ~ ~ UAV routing
~ ~ ~ Center for Embedded Networked Sensing
~ ~ ~ Industrial Partners are invited to collaborate and participate
~ ~ ~ CENS, a NSF Science & Technology Center, is developing Embedded Networked Sensing Systems
~ ~ ~ EmStar - a software system for developing and deploying wireless sensor networks involving Linux-based platforms
~ ~ ~ Hydrogen Fuel Cell Cars Donated to School of Engineering
~ ~ ~ UCLA Forms Water Technology Research Center to Address Escalating Water Scarcity in SoCal and Worldwide

University of California Irvine,California,USA *(21)*
~ ~ ~ Multiple UAV cooperative search under collision avoidance
~ ~ ~ An Architecture-Based Approach to Self -Adaptive (***)
~ ~ ~ A group key management in MANETS overseen by UAVs (*******)
~ ~ ~ UAV Power Architecture (***)
~ ~ ~ National Fuel Cell Research Center,Irvine, California, USA

UCSD San Diego, California, USA - wireless communications,medicine,The San Diego Supercomputer Center *(7)*
~ ~ ~ Scripps Institute
~ ~ ~ Air-Sea Interaction Research
~ ~ ~ The Center for Wireless Communications (CWC) of the University of California at San Diego
~ ~ ~ Industrial participants - Nokia,Ericsson,TI,Samsung...
~ ~ ~ UCI’s National Fuel Cell Research Center Sponsors Exhibit at 2005 World's Fair

Stanford, Silicon Valley, California, USA - several UAV projects *(7)*
~ ~ ~ Dragon Fly
~ ~ ~ Stanford University,funded by the FAA and DARPA and helped by the NASA Ames,
~ ~ ~ is developing systems to permit the robust navigation and enhanced control of a single UAV,
~ ~ ~ as well as algorithms for the coordinated flight of multiple UAVs
~ ~ ~ Hybrid Systems Laboratory, department of aeronautics and astronautics
~ ~ ~ Energy Efficient Link Assesment (*)

Berkeley, California, USA - several UAV & sensor projects *(21)*
~ ~ ~ Development of Berkeley UAV Fleet
~ ~ ~ Tracking vehicles with a UAV-delivered sensor network
~ ~ ~ Smart Dust
~ ~ ~ secure routing in wireless sensor networks
~ ~ ~ locationing in distributed ad-hoc wireless sensor networks

MIT, Boston, USA - wireless sensor research,aeronautics *(21)*
~ ~ ~ MIT Aeronautical Systems Laboratory
~ ~ ~ two Autonomous UAVs flying in formation
~ ~ ~ MIT team guides airplane remotely using spoken English (*)
~ ~ ~ an operational guidance system to fly an unmanned aircraft from a manned parent plane to gain surveillance in dangerous situations
~ ~ ~ tests at Edwards Air Force Base used a Lockheed T-33 trainer fighter jet and a Boeing F-15 fighter jet
~ ~ ~ the pilot essentially treats the UAV as a wingman
~ ~ ~ The Software Enabled Control (SEC) program is a 5 year, inter-university effort sponsored by DARPA & the Air Force Research Laboratory
~ ~ ~ The new guidance system is designed for volatile combat situations.
~ ~ ~ For instance, a pilot might be commanded to gather images of an enemy site located in unknown territory.
~ ~ ~ Rather than putting himself in danger, the pilot could assign a nearby UAV to the task.
~ ~ ~ The UAV moves toward the enemy site, avoiding known threats (no-fly zones) and the unexpected (radar emanating from a missile site),
~ ~ ~ all the while communicating its actions to the pilot in the other aircraft,which follows behind at a higher altitude and a safe distance.
~ ~ ~ the team worked with Teragram Corp. to create a natural-language interface through which the two vehicles communicate and coordinate their actions.
~ ~ ~ Control Architecture Design and Demonstration for Cooperative UAV's
~ ~ ~ UAVs as Tactical Wingmen (*)
~ ~ ~ Node Placement for wireless sensor network (*)
~ ~ ~ The Integration of UAVs in Offensive Combat Situations

The Defense language Institute, Monterey,California,USA

Naval Postgraduate School, Monterey,California, USA *(3)*
~ ~ ~ Unmanned Vehicles Research

UCSC, Santa Cruz,California,USA *(7)*
~ ~ ~ Embedded Systems & UAV Lab
~ ~ ~ UAV & Surveillance
~ ~ ~ The Airborne Sensor Facilit (*)
~ ~ ~ The Facility has laboratories for Sensor Engineering and Development, Sensor Calibration, and Data processing and Software Development.
~ ~ ~ Energy-efficient channel scheduling for sensor networks

The University of Georgia, Georgia, USA *(1)*
~ ~ ~ Export rules/The Center for International Trade and Security

Harvard, USA *(21)*
~ ~ ~ Robotic Aircraft
~ ~ ~ The NASA Science Mission Directorate (SMD) vision to improve life here with the mission to understand and protect our home planet
~ ~ ~ A key regime in technology innovation to advance the objectives of SMD is the union between
~ ~ ~ advanced laser development, the application of UAVs, and collaboration with the new generation of NASA satellites for Earth observations
~ ~ ~ Nano technology

Stockholm School of Economics, Sweden *(3)*
~ ~ ~ WLAN market
~ ~ ~ Personal servers

University of London, UK

Thai Technics, Tailand *(3)*
~ ~ ~ Helicopter introduction

Kasertsart University, Tailand

University of Melbourne, Australia *(7)*
~ ~ ~ Simple Flight Planning Agent *(object diagrams)

Linköpings Universitet, Sweden *(7)*
~ ~ ~ WITAS
~ ~ ~ ZigBee and IEEE 802.15.4 modules, and to evaluate an application in a sensor network
~ ~ ~ fire grids

NAIST, Japan
~ ~ ~ images

The University of Edinburgh, UK
~ ~ ~ Intelligent planning, suitable to UAVs too

The University of Southampton, UK *(7)*
~ ~ ~ Oceanographic UAV (*)
~ ~ ~ drawings

The University of Manchester/Robotics, UK *(7)*
~ ~ ~ Tri-Rotor UAV; multimedia (*); 4D Visual Nastran simulator,C++

The University of Loughborough, UK *(3)*
~ ~ ~ robot projects

The University of Cambridge Machine Intelligence Laboratory, UK *(7)*
~ ~ ~ the convergence of system concepts in traditional embedded systems, wireless sensor/actuator networks and ubiquitous computing
~ ~ ~ Microfabricated sensors

The University of Oxford/The Department of Engineering Science, UK

The University of Essex, UK
~ ~ ~ Robotics research group

The Mobile Robotics Lab at AASS,Sweden
~ ~ ~ Anchoring symbols to sensor data

Active Structures Laboratry,Université Libre de Bruxelles, Belgium
~ ~ ~ Robotics

The University of Middlesex, UK

Advocate EU project
~ ~ ~ To construct an open, modular and generic software architecture for autonomous robotic systems diagnosis and control

The University of Bielefeld, Germany
~ ~ ~ Sensorimotor control; focus on the control of dynamic movements like throwing and catching of objects

The Robotic Systems Lab, Australia *(7)*
~ ~ ~ a mobile robot system capable of continous operation in a real world environment
~ ~ ~ This requires a robust navigation and localisation system as well as a mechanism for docking at a recharging station
~ ~ ~ Internet controlled robot

The University of Notre Dame, USA
~ ~ ~ A distributed multi-agent infrastructure, for the development of distributed mixed virtual/real environments for simulated and robotic agent

The University of New Mexico, USA
~ ~ ~ Artificial muscle research institute, University of New Mexico (*)

Instituto de Automática Industrial, Spain *(7)*
~ ~ ~ Robots; Linux OS used

The University of Sydney - The Australian Centre for Field Robotics *(21)*
~ ~ ~ integrated sensor systems
~ ~ ~ Inertial Navigation System (INS)

Australian Resourece Council *(21)*
~ ~ ~ Perception - data is detected using sensors and then processed into a form which can be used effectively (***)
~ ~ ~ the Australian Centre for Field Robotics (ACFR)
~ ~ ~ Autonomous Navigation and Sensing (ANSER) using a group of fixed wing aircraft, rotary UAVs, satellite design, satellite tracking and rocketry.

Autonomous Systems at GMD, Germany *(7)*
~ ~ ~ the Cognitive Robotics group ; Modelling, Learning, Adaptation,Planning... (*)

The Marine Systems Engineering Lab, USA *(3)*
~ ~ ~ AUVS systems

The University of Bilkent, Ankara, Turkey
~ ~ ~ NATO-CRG-951262 Collaborative Research Grant

The Bio-Mimetic Control Research Center , Japan *(3)*
~ ~ ~ artificial sensor systems that mimic the flexible and integrated properties and data processing functionality possessed by biological systems

Stanford University/Research sponsored by the Office of Naval Research , USA *(21)*
~ ~ ~ Biomimesis: to mimic life, to imitate biological systems
~ ~ ~ collaboration among robotics and physiology researchers at Stanford, U.C. Berkeley, Harvard and Johns Hopkins Universities

Marice Science Center - Northeastern University, USA *(7)*
~ ~ ~ Lobster robot - an 8-legged ambulatory vehicle that is based on the lobster and is intended for autonomous remote-sensing operations

Department of Aerospace and Mechanical Engineering Boston University, USA *(7)*
~ ~ ~ Communicating Mobile Robotics
~ ~ ~ understanding the use of real-time distributed sensor data to achieve coordinated control of the motions of groups of mobile robots

CALTECH /Robotics, USA *(21)*
~ ~ ~ Sensor based planning (***)
~ ~ ~ sensor-based exploration; robot is directed to explore the apriori unknown environment in such a way as to see all potentially important features
~ ~ ~ Sensor based planning is important because:
~ ~ ~ (1) the robot often has no a priori knowledge of the world;
~ ~ ~ (2) the robot may have only a coarse knowledge of the world because of limited memory;
~ ~ ~ (3) the world model is bound to contain inaccuracies which can be overcome with sensor based planning strategies; and
~ ~ ~ (4) the world is subject to unexpected occurrences or rapidly changing situations.
~ ~ ~ Sensor-Based Autonomous Navigation for Mars Rovers (*)
~ ~ ~ In collaboration with JPL algoritms have been developed for the autonomous navigation of future Mars Rover vehicles

The University of Sharif, Iran

The CAISR lab,Ohio , USA *(7)*
~ ~ ~ CAISR integrates technologies such as Fuzzy Logic, Expert Systems and Neural Networks to create flexible systems

The University of Minnesota - Center for Distributed Robotics, USA *(7)*
~ ~ ~ Ranger - sponsored in part by NSF, U.S. Army, DARPA, Microsoft, INEEL, and U.S. Air Force
~ ~ ~ The ranger is responsible for entering the target area and carrying out the specific goals of the mission.
~ ~ ~ Once deployed, the rangers are usually used in cooperation with other rangers and several scouts in the target area as well as the control center
~ ~ ~ Pioneer - equipped with grippers, frame grabber cards, BreezeNet wireless access units, and hard disks running Linux operating system

The CRI Centre , Portugal *(3)*
~ ~ ~ Center for Intelligent Robotics

Center for Robot Assisted Search & Rescue,Florida, USA *(3)*
~ ~ ~ Robot assisted search & rescue
~ ~ ~ CRASAR maintains a cache of 13 "micro" ground robots and sensors with trained responders which is kept on constant standby 24/7
~ ~ ~ Robot System: robot base, OCU, transport container(s), backpack, camcorder, any recharging equipment, tools, and spare parts

The University of Kentucky, USA

DARPA Centibots, USA

The Centre for Autonomous Systems (Cas), the Kungliga Tekniska Högskolan in Stockholm, Sweden *(7)*
~ ~ ~ CAS Laboratory facilities - The iRobot ATRV is an all terrain robot vehicle. The system has an on-board dual CPU linux system

Autonomous Multi-Robot Learning in Inherently Cooperative Tasks
~ ~ ~ Distributed Robotics: Analysis of Swarm Robot Algorithms

The University of Berlin, Germany

Biorobotics Lab, Carnegie Mellon University, USA *(21)*
~ ~ ~ Robot photos and videos
~ ~ ~ Bridge inspection with a snake robot

Teambots.org, USA *(7)*
~ ~ ~ The Minnow project - team of robots

Cognitive Robotics group at GMD , Germany

The Institute of Systems and Robotics,Portugal *(3)*
~ ~ ~ robotics vision, autonomous systems, multi-sensor fusion and integration, tele-operation, sensor development, soft-control and motors and drives

The University of Columbia, USA *(7)*
~ ~ ~ Avenue - Autonomous Vehicle for Exploration and Navigation in Urban Environments
~ ~ ~ The robot used is an ATRV-2 model manufactured by Real World Interface, Inc, which is now iRobot

The University of Alberta, Canada

The University of Stuttgart, Germany *(7)*
~ ~ ~ Image Understanding, Robotics and Distributed AI, Non-linear Dynamics

Delft Center for Systems and Control,Netherlands *(3)*
~ ~ ~ Research - Electrical Engineering (ITS), Mechanical Engineering (OCP) and Applied Physics (TNW)

The University of Cornell , USA *(3)*
~ ~ ~ Self replication

The University of Johannes Kepler,Austria

Institute of Robotics and Mechatronics, Germany *(3)*
~ ~ ~ Aeronautics Research - Flight dynamics and control

The University of Baureuth,Köln, Germany *(3)*
~ ~ ~ Virtual Robot Programming

Oak Ridge National Laboratory, USA
~ ~ ~ The Atmospheric Radiation Measurement (ARM) program

The University of Pisa, Italy *(3)*
~ ~ ~ Department of Aerospace Engineering

Georgia Tech, USA *(14)*
~ ~ ~ Battery and Fuel Cell Laboratory

Autonomous Systems Lab,Lausanne, France
~ ~ ~ Airduct inspection robot - Airducts have caracteristics very differents from underground pipes

Institute of Robotics,Zurich, Switzerland *(3)*
~ ~ ~ An autonomous sailboat with a fuzzy skipper and GPS navigation

The University of Miami, Florida *(7)*
~ ~ ~ Active projects - Fault-Tolerant Systems,Flexible System Modeling ...

Fraunhover Institute, Germany *(3)*
~ ~ ~ Explorative robotics - Exploration robotics is necessary to inspect environments, that humans can invade neither physically nor with their perception

DARPA Mobile Autonomous Robot Software (MARS) project , USA *(7)*
~ ~ ~ MissionLab - MissionLab takes high-level military-style plans and executes them with teams of real or simulated robotic vehicles

Georgia Tech - Aerial Robotics, USA *(7)*
~ ~ ~ The Entomopter - miniature flying machine Entomopter that closely resembles insects and weighs a mere 50 grams

Harvard Robotics Laboratory, USA *(7)*
~ ~ ~ Robotic manipulation - testbed for work in robotic manipulation, particularly aspects involving tactile sensing, motion description

The University of Illinois, USA *(3)*
~ ~ ~ Hover robot examples

The University of Helsinki - Automation Technology Laboratory, Finland *(3)*
~ ~ ~ Intelligent Mobile Machines and Robots
~ ~ ~ Mobile Ball-Shaped Robot
~ ~ ~ This version was mechanically designed and manufactured by subcontractor Rover Company Ltd (St Petersburg) (*)
~ ~ ~ Rotis - Remotely Operated Tanker Inspection System

~ Rover Company, Russia *(7)*
~ ~ ~ J.-ST. Co. VNIITRANSMASH (24% stocks) and natural persons (76% stocks), leading specialists on space subjects of the institute
~ ~ ~ stipulated by sharp cutting down of the state financing space programs and, accordingly, by increase of competition in this sphere of activities in Russia
~ ~ ~ scientists and engineers, which took part in a number projects of the world level,
~ ~ ~ such as creation of the self-propelled automatic chassis for Lunokhod 1 (1970) and Lunokhod 2 (1973),
~ ~ ~ the small Mars rover M-71 for the automatic stations Mars 3 and Mars 6 (1971),
~ ~ ~ the mobile apparatus for motion over the surface of Fobos,
~ ~ ~ the special transport robots STR 1 for clearing and decontamination of roofs of the Chernobyl atomic station (1986).
~ ~ ~ the Robotic Centre of Monach University (Australian), HUT, Space System Co. And VTT (Finland) became partners to the S &T Rover Co. Ltd.

Computational Vision and Robotics Laboratory , Greece *(3)*
~ ~ ~ Helicopter FLYBOT
~ ~ ~ Each rotor has its own independent electric engine

Institute of Automation, Austria

The Intelligent Robotics and Manufacturing Systems Laboratory,Vancouver , Canada *(3)*
~ ~ ~ projects - Multi-robot coordination,Dexterous robotic hands,Intelligent mobile vehicles,Parallel and redundant robots

The University of Monash, Australia

The University of Maryland, USA

Sandia, USA

The University of Malaga, Spain

The University of Indiana, USA

JSK, The University of Tokyo, Japan

The University of University of Massachusetts Amherst , USA

The University of Lehigh - Micro Air Vehicle Project, USA *(7)*
~ ~ ~ The Centre for Perceptive and Intelligent Machines in Complex Environments
~ ~ ~ systems of networked sensors, computational intelligence, mobile robots, and knowledge sources

The University of Lund, Sweden

The University of Luleå, Sweden *(3)*
~ ~ ~ Robots

The University of Belgrade, Yugoslavia
~ ~ ~ projects - Intelligent Control Techniques in Robotics,Kinematic Aspects of Robotic System Control

MIT, USA *(7)*
~ ~ ~ Prewalking videos !

The University of Berlin, Germany *(3)*
~ ~ ~ a descendant of the airplane-robot Tubrob is developed

NASA - Advanced Autonomy for Rovers, USA *(7)*
~ ~ ~ APV-3 Networked UAV Teaming Experiment
~ ~ ~ Photo with two UAVs
~ ~ ~ Selected Robotics Resources on the Internet (***)

NASA, Houston,Texas, USA *(7)*
~ ~ ~ The Autonomous Extravehicular Robotic Camera (AERCam)

NASA JPL Robotics, California,Los Angeles, Pasadena, USA *(7)*
~ ~ ~ Urbie - Urban robot
~ ~ ~ Urbie movies

The University of Oxford, UK *(7)*
~ ~ ~ The pattern analysis & machine learning research group

The University of Fordham, USA

SPAWAR, San Diego, USA *(7)*
~ ~ ~ - C3 architectures as applied to automated systems
~ ~ ~ Ruggedized system integration, Sensor signal processing, Operator machine interfaces, Remote sensing systems

The University of South Alabama, USA *(7)*
~ ~ ~ Robotics is an emerging area of research and experimentation

State Research Center of Russia, Russia *(3)*
~ ~ ~ Mobile robotic complex Explorer
~ ~ ~ The complex is intended for search and evacuation of local sources of gamma radiation.
~ ~ ~ It can be used for execution of regular technological operations on the atomic industry plants,
~ ~ ~ for liquidation of consequences of accidents on the power reactor facilities, during natural cataclysms or hostilities.
~ ~ ~ Gamma-locator is used for detection of local gamma-source, determination of direction on it, control of the exposure rate

~ LTC, Russia

Swarm-bots project, EU

The Swarm-Intelligent Systems (SWIS) research group , Switzerland

The University of Sydney Autonomous Unmanned Aerial Vehicles (UAV) and Robotic Aircraft, Australia *(21)*
~ ~ ~ Aeronautical Engineering UAV Research Group has one of Australia’s largest and most active team of robotic aircraft researchers
~ ~ ~ Current UAV related research activities include the following:
~ ~ ~ Autonomous Remote Sensing using UAVs;
~ ~ ~ Decentralised Navigation and Control of Autonomous Flight Vehicles;
~ ~ ~ Design and Development of Rapid Prototype UAVs;
~ ~ ~ Terrain Following for autonomous flight vehicles;
~ ~ ~ Integration of available technologies into operational UAV systems;
~ ~ ~ Real-time fight control software synthesis for UAVs;
~ ~ ~ Design and fabrication of airframe components using advanced composite materials.

The University of Munchen, Germany *(7)*
~ ~ ~ Robot Vision Group at the Technische Universität München

The University of Berkeley, USA *(7)*
~ ~ ~ UC Berkeley Robotics Tools

The University of Florida - Micro Air Vehicles, USA *(7)*
~ ~ ~ Micro Air Vehicles
~ ~ ~ research and technologies, enabling unprecedented capabilities for Micro Air Vehicles (MAVs) and small Unmanned Air Vehicles (UAVs)

The University of ULM, Germany

The University of Michigan, USA *(7)*
~ ~ ~ robot projects

The University of Alberta, Canada

JNF, Germany *(3)*
~ ~ ~ The Robotics Group is part of the Systems Biophysics Group

Laboratory for Industrial Robotics,Slovenia

The University of Texas,Austin, USA *(7)*
~ ~ ~ The RRG is supported by funding from various agencies and industry, including DOE, , DARPA, THECB, NASA, etc

The University of Zurich, Switcherland *(3)*
~ ~ ~ Biorobotics: inspiration from insects and humans

The University of Philippines, Philippines *(3)*
~ ~ ~ The laboratory is mainly concerned with research on mobile robots as intelligent agents.

The University of Rochester, USA *(3)*
~ ~ ~ the focus on techniques requiring no or little calibration and thus are suitable to use in natural everyday environments.

Center for Robotics and Embedded Systems (CRES),University of Southern California, USA *(7)*
~ ~ ~ interdisciplinary organized research unit (ORU)
~ ~ ~ sponsors include DARPA,Office of Naval Research
~ ~ ~ UAV helicopter
~ ~ ~ The USC Autonomous Flying Vehicle Project
~ ~ ~ The Robotic Embedded Systems Laboratory (RESL)
~ ~ ~ mobile robots and unattended sensors programmed to work together as teams

University of Texas project, USA

The University of West of England - Intelligent Autonomous Systems Laboratory,UK *(7)*
~ ~ ~ Robots - A Linuxbot fittled with a 340mb IBM Microdrive, Wireless LAN Card and Digital Firewire Camera...

The University of Vanderbilt, USA

Vrije Universiteit Brussel, Belgium

Walking-machines.org

Wisconsin Center for Space Automation and Robotics, USA

Oxford database links

Oulu University/Faculty of Technology, Finland *(7)*
~ ~ ~ The Telecommunication Laboratory and Centre for Wireless Communications (CWC)

Tampere University of Technology, Finland *(7)*
~ ~ ~ The Aerobot is an autonomously controlled lighter than air vehicle which uses a helium filled balloon for its primary lift
~ ~ ~ The uLinux control board coupled with the very compact layout and the use of surface-mount technology
~ ~ ~ helps to reduce the weight by a considerable amount
~ ~ ~ Ultra Low Power Wireless Sensor Network (*)
~ ~ ~ TUTWSN utilizes clustered network topology. Each cluster consists of a single cluster head (headnode) and several subnodes.
~ ~ ~ Subnodes gather data by sensing. They are in direct communication with a headnode forming a star topology.
~ ~ ~ Headnodes route data in the network. They are linked together using a peer-to-peer topology.
~ ~ ~ multimedia Wireless Local Area Network (WLAN) called TUTWLAN

Lappeenranta University of Technology, Finland

Helsinki University of Technology, Finland *(7)*
~ ~ ~ Laboratory of Aeronautics
~ ~ ~ algorithms and their requisite underlying mathematical models for future wireless sensor

Uppsala University, Sweden *(7)*
~ ~ ~ UAV project
~ ~ ~ focus on portable low-cost systems - mapping and data collection operations from a height of a few hundred metres within a single forest stand.
~ ~ ~ Design Space Exploration of Wireless Multihop Networks
~ ~ ~ The Janus architecture for providing flexible access to sensor network resources from Internet-type networks

University of Tartu, Estonia

University of Copenhagen, Denmark

University of Warsaw, Poland

Universitas Vilnensis, Lithuenia
~ ~ ~ NATO Science Program
~ ~ ~ Ekspla
~ ~ ~ Laser products

University of Latvia, Lithuanian
~ ~ ~ services

Budabest University, Hungary *(7)*
~ ~ ~ Department of Manufacturing Engineering
~ ~ ~ robot motion and path control, robot application, sensors for robots,
~ ~ ~ robotized assembly, robot grippers; knowledge based process planning, production planning and scheduling;
~ ~ ~ ultraprecision machining; surface coating technologies, rapid prototyping; intelligent product manuals, multipod machines.
~ ~ ~ Wireless sensor and actor networks
~ ~ ~ Security in wireless networks

University Bulgaria, Bulgaria

University of London, UK

University of Milan, Italy

University of Athens, Greece *(3)*
~ ~ ~ Calculation of the flow around BO105 helicopter model

King Fahd University of Petroleum and Minerals, Saudi Arabia *(21)*
~ ~ ~ Research Institute
~ ~ ~ Remote Sensing laboratory

Kuwait University, Kuwait *(21)*

University of Baghdad, Iraq *(7)*

University of United Arab Emirates, United Arab Emirates *(21)*
~ ~ ~ a conference sponsors: ~Abu Dhabi National Oil Company (ADNOC)

University of Bahrain *(7)*

University of Yemen, Yemen *(7)*

University of Peking, China *(7)*

University of Tokyo; only japanese publications *(3)*