Handling heterogeneity in networked virtual environments

The availability of inexpensive and powerful graphics cards as well as fast Internet connections make networked virtual environments viable for millions of users and many new applications. It is therefore necessary to cope with the growing heterogeneity that arises from differences in computing power, network speed, and users' preferences. This paper describes an architecture that accommodates the heterogeneity while allowing a manager to define systemwide policies. One of the main objectives of our scheme is to allow slower nodes to participate in the session by preventing fast nodes from flooding slow nodes with too many messages. Policies and users' preferences can be expressed as simple linear equations forming a model that describes the system as a whole as well as its individual components. When solutions to this model are mapped back to the problem domain, viable solutions that accommodate heterogeneity and system policies are obtained. For example, slower nodes may receive less frequent updates than faster ones for one or several information streams. The results of our experiments with a proof-of-concept system are described

Multimodal User Interface for Mission Planning

This paper presents a multimodal interface featuring fusion of multiple modalities for natural human-computer interaction. The architecture of the interface and the methods applied are described, and the results of the real-time multimodal fusion are analyzed. The research in progress concerning a mission planning scenario is discussed and other possible future directions are also presented. Keywords Multimodal interfaces, speech recognition, microphonearray, force-feedback tactile glove, military maps INTRODUCTION Current human-machine communication systems predominantly use keyboard and mouse inputs that inadequately approximate human abilities for communication. More natural communication technologies such as speech, sight and touch, are capable of freeing computer users from the constraints of keyboard and mouse. Although they are not sufficiently advanced to be used individually for robust human-machine communication, they have adequately advanced to serve simultaneous multisen..

Introducing RFID technology in dynamic and time-critical medical settings: Requirements and challenges

AbstractWe describe the process of introducing RFID technology in the trauma bay of a trauma center to support fast-paced and complex teamwork during resuscitation. We analyzed trauma resuscitation tasks, photographs of medical tools, and videos of simulated resuscitations to gain insight into resuscitation tasks, work practices and procedures. Based on these data, we discuss strategies for placing RFID tags on medical tools and for placing antennas in the environment for optimal tracking and activity recognition. Results from our preliminary RFID deployment in the trauma bay show the feasibility of our approach for tracking tools and for recognizing trauma team activities. We conclude by discussing implications for and challenges to introducing RFID technology in other similar settings characterized by dynamic and collocated collaboration