Telescience Testbed Pilot Program

The Telescience Testbed Pilot Program is developing initial recommendations for requirements and design approaches for the information systems of the Space Station era. During this quarter, drafting of the final reports of the various participants was initiated. Several drafts are included in this report as the University technical reports

A hotkey interaction technique that promotes hotkeys

Hotkeys provide fast interactions to support expert performance. Compared to the traditional pointer-based selection of commands, hotkeys have the advantage in reducing task completion time. However, research shows that users have a tendency of favoring menu selections. This is partially caused by how hotkeys are displayed in most linear and toolbar menus. This thesis provides a review of key findings from literature that aim to promote hotkeys. On the base of these findings, this thesis develops design criteria for hotkey displays that promote hotkey use. This thesis also proposes a new interaction technique which displays hotkeys on the keyboard. Finally, a cognitive model is constructed to describe a user’s decision-making process of choosing between hotkeys and pointer-based selections when this new hotkey display technique is presented

Parallel and Distributed Computing

The 14 chapters presented in this book cover a wide variety of representative works ranging from hardware design to application development. Particularly, the topics that are addressed are programmable and reconfigurable devices and systems, dependability of GPUs (General Purpose Units), network topologies, cache coherence protocols, resource allocation, scheduling algorithms, peertopeer networks, largescale network simulation, and parallel routines and algorithms. In this way, the articles included in this book constitute an excellent reference for engineers and researchers who have particular interests in each of these topics in parallel and distributed computing

Supporting document management in complex multitask environments

In this thesis, the challenges for the support of information workers in the domain of personal information management are addressed. In Chapter 1 three major challenges are identified: 1) information overload and fragmentation, 2) multitasking within an unstructured, frequently interrupted workflow, and 3) increasing mobility demand. It has been argued that dedicated support of current needs in personal information management will help to overcome the challenges, reduce information and cognitive overload, and facilitate performance of information workers. Investigating the current needs of information workers, one has to focus on those that are currently supported by paper document management and transfer the mechanisms of this support to the digital domain. Our studies have addressed the role of paper documents in dealing with each of the three identified challenges. In the first study, presented in Chapter 2, paper document management has been discussed in relation with information overload and fragmentation. The study used contextual interviewing technique, with participants interviewed at their workplace. The results showed that information workers keep actively using task-related collections of paper documents. By grouping task-related documents from different origins together, information workers create a representation of a "stable state" within a task, which helps to resume the task after an interruption that is almost inevitable in a multitasking environment. To investigate task-switching patterns, related to document manipulation, and factors influencing the occurrence of the patterns, an observational study was performed, described in Chapter 3. This study identified eight task switching patterns, which varied in the explicitness of an indication of a task state in the environment and in the level of subject’s activity directed to indicate the task state at the moments of switching. Among the identified influencing factors, the reason for the switch (self-switching or external interruption) had an effect on the occurrence of subjectactive patterns. Self-switching usually resulted in user-active document manipulation in the environment which could not be observed during external interruptions. The domain where the last action was performed also had an influence on the switching pattern, with active manipulation of documents occurring more often in the physical than in the digital domain. It has been concluded that, while switching tasks in an unstructured multitasking workflow, manipulation of paper documents plays an important role in creating a stable state at the moments of switching between tasks. We hypothesized that paper documents possess visually distinctive attributes that are associated with the semantics of the related tasks. By manipulating task-related documents at the moments of task switching, these visually distinctive attributes change, reflecting the changes in the task state. This hypothesis has been tested in a study using triad elicitation interview technique in combination with laddering, presented in Chapter 4. As a result, we developed a clustered model of relationships among identified visual cues of paper documents and semantic judgments of the tasks. The relationships among clusters have been analyzed based on three criteria: content-dependency, flexibility, and effort, which together define ease of manipulation for each cluster of visual cues. It has been concluded that physical environment, in particular, task-relevant paper documents, allow flexible encoding of task-related semantic cues into available environmental visual cues. This mechanism needs to be transferred to the digital domain, especially to support mobility of information workers. This research suggested that the extensive use of paper documents in the digital era can be largely explained by the embodiment of paper as a part of physical environment in which a human acts. Chapter 5 summarized the results of all studies into a set of requirements for the design of a personal information management system. We proposed a layered framework for presenting the requirements from the point of view of task decomposition and discussed the needs of the information workers related to each layer. For each of the aforementioned layers within the framework, requirements for the design of a digital system were presented and discussed in detail. Chapter 6 revised the challenges discussed in Chapter 1 from the point of view of the findings, summarized methodology and contribution of the research and reflected on the most prominent results

An architecture for intelligent health assessment enabled IEEE 1451 compliant smart sensors

As systems become increasingly complex and costly, potential failure mechanisms and indicators are numerous and difficult to identify, while the cost of loss is very expensive - human lives, replacement units, and impacts to national security. In order to ensure the safety and long-term reliability of vehicles, structures, and devices attention must be directed toward the assessment and management of system health. System health is the key component that links data, information, and knowledge to action. Integrated Systems Health Management (ISHM) doctrine calls for comprehensive real-time health assessment and management of systems where the distillation of raw data into information takes place within sensors and actuators. This thesis develops novel field programmable health assessment capability for sensors and actuators in ISHM. Health assessment and feature extraction algorithms are implemented on a sensor or actuator through the Embedded Routine Manager (ERM) API. Algorithms are described using Health Electronic Datasheets (HEDS) to provide more flexible run-time operation. Interfacing is accomplished through IEEE Standard 1451 for Smart Sensors and Actuators, connecting ISHM with the instrumentation network of the future. These key elements are validated using exemplar algorithms to detect noise, spike, and flat-line events onboard the ISHM enabled Methane Thruster Testbed Project (MTTP) at NASA Stennis Space Center in Mississippi

Asynchronous Visualization of Spatiotemporal Information for Multiple Moving Targets

In the modern information age, the quantity and complexity of spatiotemporal data is increasing both rapidly and continuously. Sensor systems with multiple feeds that gather multidimensional spatiotemporal data will result in information clusters and overload, as well as a high cognitive load for users of these systems. To meet future safety-critical situations and enhance time-critical decision-making missions in dynamic environments, and to support the easy and effective managing, browsing, and searching of spatiotemporal data in a dynamic environment, we propose an asynchronous, scalable, and comprehensive spatiotemporal data organization, display, and interaction method that allows operators to navigate through spatiotemporal information rather than through the environments being examined, and to maintain all necessary global and local situation awareness. To empirically prove the viability of our approach, we developed the Event-Lens system, which generates asynchronous prioritized images to provide the operator with a manageable, comprehensive view of the information that is collected by multiple sensors. The user study and interaction mode experiments were designed and conducted. The Event-Lens system was discovered to have a consistent advantage in multiple moving-target marking-task performance measures. It was also found that participants’ attentional control, spatial ability, and action video gaming experience affected their overall performance

Telescience testbed pilot program, volume 3: Experiment summaries

Space Station Freedom and its associated labs, coupled with the availability of new computing and communications technologies, have the potential for significantly enhancing scientific research. A Telescience Testbed Pilot Program (TTPP), aimed at developing the experience base to deal with issues in the design of the future information system of the Space Station era. The testbeds represented four scientific disciplines (astronomy and astrophysics, earth science, life sciences, and microgravity sciences) and studied issues in payload design, operation, and data analysis. This volume, of a 3 volume set, which all contain the results of the TTPP, presents summaries of the experiments. This experiment involves the evaluation of the current Internet for the use of file and image transfer between SIRTF instrument teams. The main issue addressed was current network response times