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Indium Phosphide and Related Materials Conference

作者： I. Adesida K. Nummila M. Tong C. Caneau R. Bhat Center for Compound Semiconductor Microelectronics Coordinated Science Laboratory Urbana IL USA Department of Electrical and Computer Engineering University of Illinois Urbana IL USA Bell Communications Research Inc. Red Bank NJ USA

The DC and microwave performance of modulation-doped field effect transistors (MODFETs) with 0.15 /spl mu/m T-gates fabricated in a organo-metallic vapor phase epitaxy (OMVPE)-grown lattice-matched InAlAs/InGaAs/InP heterostructure are reported. Devices with extrinsic transconductance, g/sub m/, as high as 1080 mS/mm at 508 mA/mm and a unity current-gain cutoff frequency, f/sub T/, of 187 GHz are shown. To date, this is the highest f/sub T/ reported for OMVPE-grown MODFETs.< >

关键词： Indium compounds Indium gallium arsenide MODFETs HEMTs Doping Arthritis Indium phosphide Resists Etching Gold

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DERIVATION AND APPLICATION OF HARD DEADLINES FOR REAL-time CONTROL-SYSTEMS

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IEEE TRANSACTIONS ON SYSTEMS MAN AND CYBERNETICS 1992年第6期22卷 1403-1413页

作者： SHIN, KG KIM, HB Real Time Computing Laboratory the Department of Electrical Engineering and Computer Science University of Michigan Ann Arbor MI USA

The computation-time delay in the feedback controller of a real-time control system may cause failure to update the control input during one or more sampling periods. If this delay exceeds a certain limit called a hard deadline, either the necessary conditions for system stability are violated or the system leaves the allowed state-space. In such a case a dynamic failure is said to occur to the system. A method for calculating the hard deadlines in linear time-invariant control systems by considering system stability and the allowed state-space is presented. To derive necessary conditions for (asymptotic) system stability, the state difference equation is modified based on an assumed maximum delay and the probability distribution of delays whose magnitudes are less than, or equal to, the assumed maximum delay. Moreover, the allowed state-space-which is derived from given input and state constraints-is used to calculate the hard deadline as a function of time and the system state. A one-shot delay model in which a single event causes a dynamic failure is also considered. The knowledge of hard deadline is then applied to the design of error recovery in a triple modular redundant (TMR) controller computer.

关键词： Real time systems Control systems Delay effects Stability Feedback Sampling methods Difference equations computer errors Error correction Process control

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MINIMUM-time COLLISION-FREE TRAJECTORY PLANNING FOR DUAL-ROBOT SYSTEMS

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IEEE TRANSACTIONS ON ROBOTICS AND AUTOMATION 1992年第5期8卷 641-644页

作者： SHIN, KG ZHENG, Q Real-Time Computing Laboratory Department of Electrical Engineering and Computer Science University of Michigan Ann Arbor MI USA

Collision-free multirobot motion planning can be achieved in two steps: path planning and trajectory planning. Path planning finds for the robots geometric paths to avoid collision with static obstacles and trajectory planning determines how fast each robot must move along its geometric path to avoid collision with other moving robots. For a dual-robot system, a simple trajectory planning strategy is to let each robot move along its path as fast as possible and delay one robot at its initial position to avoid collision with the other robot. We derive in this paper a sufficient condition under which this simple (thus easy to implement) strategy for dual-robot systems can achieve time optimality as well as collision avoidance, i.e., the two robots reach their final positions without colliding with each other in the minimum amount of time. A demonstrative example is presented, showing how this strategy can be used for loading and unloading applications.

关键词： COLLISION AVOIDANCE COLLISION REGION MINIMUM-time TRAJECTORY PLANNING MULTIROBOT SYSTEMS

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MONITORING AND DEBUGGING DISTRIBUTED REAL-time PROGRAMS

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SOFTWARE-PRACTICE & EXPERIENCE 1992年第10期22卷 863-877页

作者： DODD, PS RAVISHANKAR, CV Real-Time Computing Laboratory Department of Electrical Engineering and Computer Science The University of Michigan Ann Arbor Michigan 48109-2122 U.S.A.

In this paper we describe the design and implementation of an integrated monitoring and debugging system for a distributed real-time computer system. The monitor provides continuous, transparent monitoring capabilities throughout a real-time system's lifecycle with bounded, minimal, predictable interference by using software support. The monitor is flexible enough to observe both high-level events that are operating system- and application-specific, as well as low-level events such as shared variable references. We present a novel approach to monitoring shared variable references that provides transparent monitoring with low overhead. The monitor is designed to support tasks such as debugging real-time applications, aiding real-time task scheduling, and measuring system performance. Since debugging distributed real-time applications is particularly difficult, we describe how the monitor can be used to debug distributed and parallel applications by deterministic execution replay.

关键词： PROGRAM MONITORING DEBUGGING REAL-time SYSTEMS

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REAL-time COMMUNICATION IN LOCAL AREA RING NETWORKS 17

REAL-TIME COMMUNICATION IN LOCAL AREA RING NETWORKS

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17TH CONF ON LOCAL computer NETWORKS

作者： ZHENG, Q SHIN, KG Real-Time Computing Laboratory Department of Electrical Engineering and Computer Science University of Michigan Ann Arbor 48109-2122 MI United States

ISBN: (纸本)0818630957

timed token protocols are almost exclusively used for medium access control in local area ring networks. We consider in this paper the feasibility of using buffered transmission which has the advantages of eliminating the token passing overhead and relieving the network interface from the complex token handling operations. By establishing real-time channels (each of which is a unidirectional virtual connection), the end- to-end delivery delay of real-time packets can also be controlled more flexibly than the timed token protocols. We first review the concept of real-time channel (RTC) and the RTC establishment procedures. Its performance is then compared with the FDDI timed token protocol. Our simulation results show that the buffered transmission in local area ring networks equipped with real-time channels enhances both the networks' throughput and the ability to support heterogeneous real-time traffic. The implementation of the network interface is also examined with an example design showing the feasibility of real-time channels in high-speed local area networks. © 1992 IEEE.

关键词： Medium access control

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DESIGN AND EVALUATION OF REAL-time COMMUNICATION FOR FIELDBUS BASED MANUFACTURING SYSTEMS 17

DESIGN AND EVALUATION OF REAL-TIME COMMUNICATION FOR FIELDBU...

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17TH CONF ON LOCAL computer NETWORKS

作者： SHIN, KG CHOU, CC Real-Time Computing Laboratory Department of Electrical Engineering and Computer Science University of Michigan Ann Arbor 48109-2122 MI United States

ISBN: (纸本)0818630957

It is well-known that the ability to support predictable inter-process communication is of great significance to manufacturing and process control systems. In this paper, we propose a strategy for a soon-to-be industrial standard, the SP-50 Field Bus, to support both intra-cell and inter-cell real-time communications. We first describe our strategy in detail and show that it is compatible with the current FieldBus draft proposal. Under our strategy, the capacity of each link is divided into two parts. The first part is managed by the local Link Active Scheduler (LAS) for intra-cell (intra-link) communication. The second part is managed by the global network manager for inter-cell (inter-link) communication. By dividing the link capacity in this way, our strategy can allow for fast local intra-cell connection establishment, while supporting global inter- cell connections. Numerical examples are also given for a typical manufacturing network. © 1992 IEEE.

关键词： computer COMMUNICATION NETWORKS MANUFACTURING SYSTEMS FIELDBUS REAL-time COMMUNICATION REAL-time CHANNEL

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Communication-oriented assignment of task modules in hypercubic multicomputers 12

Communication-oriented assignment of task modules in hypercu...

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12th International Conference on Distributed computing Systems, ICDCS 1992

作者： Tsai, Bing-Rung Shin, Kang G. Real-Time Computing Laboratory Computer Science and Engineering Division Department of Electrical Engineering and Computer Science University of Michigan Ann ArborMI48109-2122 United States

ISBN: (纸本)0818628650

The problem of mapping a task that is composed of interacting modules onto a hypercube multicomputer is formulated and solved by minimizing an objective function called the communication traffic. The objective function allows module assignments to be found with the usual straightforward combinatorial optimization techniques. The problem of finding an assignment that minimizes the communication traffic is proved to be NP-hard, so a standard state-space search algorithm as well as other heuristic algorithms are used to find optimal/suboptimal solutions. The relative performances of various algorithms are evaluated using simulations. The assignments obtained from these algorithms are evaluated using an event-driven simulator to learn how they perform in real-world execution environments. © 1992 IEEE.

关键词： Heuristic algorithms

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Allocation of periodic task modules with precedence and deadline constraints in distributed real-time systems

Allocation of periodic task modules with precedence and dead...

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1992 Real-time Systems Symposium, RTSS 1992

作者： Hou, Chao-Ju Shin, Kang G. Real-Time Computing Laboratory Department of Electrical Engineering and Computer Science University of Michigan Ann Arbor MI 48109-2122 United States

ISBN: (纸本)0818631953

This papei addresses the problem of allocating (assigning and scheduling) periodic task modules to processing nodes (PNs) in distributed real-time systems subject to task precedence and timing constraints. Using the branch-and-bound technique, a module allocation algorithm (MAA) is proposed to find an "optimal" allocation that maximizes the probability of meeting task deadlines. The task system within a planning cycle is first modeled with a task flow graph (TG) which describes computation and communication modules as well as the precedence constraints among them. To incorporate both timing and logical correctness into module allocation, the probability of meeting task deadlines is used as the objective function. The MAA is then applied to find an optimal allocation of task modules in a distributed system. The timing aspects embedded in the objective function drive the MAA not only to assign task modules to PNs, but also to use a module scheduling algorithm (MSA) (with polynomial time complexity) for scheduling all modules assigned to each PN so that all tasks may be completed in time. Several numerical examples are presented to demonstrate the effectiveness and practicality of the proposed algorithms. © 1992 IEEE.

关键词： Scheduling algorithms

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TEMPLATE MATCHING ANALYSIS OF UNIPOLAR AND BIPOLAR ELECTROGRAMS IN THE DIFFERENTIATION OF VENTRICULAR-TACHYCARDIA AND FIBRILLATION FROM SINUS RHYTHM

TEMPLATE MATCHING ANALYSIS OF UNIPOLAR AND BIPOLAR ELECTROGR...

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CONF ON computerS IN CARDIOLOGY

作者： SILKA, MJ RANVILLE, S JENKINS, JM YAN, MC DICARLO, LA Department of Electrical Engineering and Computer Science University of Michigan Medical Computing Laboratory Ann Arbor 48109-2122 MI United States

ISBN: (纸本)0818635509

The failure of automated morphologic detection of ventricular tachycardia (VT) or fibrillation (VF) is a limitation of implantable cardioverter-defibrillators. As an adjunct to rate-based criteria, this study evaluated the use of waveform analysis of intracardiac electrograms with correlation waveform analysis (CWA). Using digital signal processing, unipolar and bipolar electrograms were evaluated in sinus rhythm (SR), VT, and VF at 1-500 Hz and 10-80 Hz in 15 patients. There was complete differentiation of SR from VF in 13/15 patients and VT in 14/15 with unipolar and 14/15 patients with bipolar electrograms at 1-500 Hz;at 10-80 Hz SR was differentiated from VF in 12/15 patients and VT in 13/15 with unipolar and from VF in 14/15 patients and VT in 13/15 with bipolar electrograms. It is concluded that differentiation of intracardiac waveforms by CWA is independent of electrode configuration and is not significantly altered by moderate signal filtering. © 1992 IEEE.

关键词： Template matching

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Hard Deadlines in Real-time Control Systems

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IFAC Proceedings Volumes 1992年第20期25卷 9-14页

作者： Kang G. Shin Hagbae Kim Real-Time Computing Laboratory Department of Electrical Engineering and Computer Science The University of Michigan Ann Arbor MI 48109-2122

In a real-time control system where the control input is computed by a controller computer, the transient computer failures caused by an electromagnetic interference may seriously affect system stability. The faulty controller computer causes either a long delay in the feedback loop thus failing to update the control input for one or more sampling intervals, or control input disturbances by updating the control inputincorrectly until the fault is handled properly. If the period of this abnormal behavior exceeds a certain limit called a hard deadline, either the necessary conditions for system stability will be violated or the system willleave the allowed state space. In such a case a dynamic failure is said to occur in the system. We present a method for deriving hard deadlines for linear time-invariant control systems by examining the stability of the state difference equations resulting from the modification of the original state equations with an assumed maximum delay and several random sequences that represent the effects of stationary occurrences of the disturbances to, as well as the random delays of, the control input. Moreover, a one-shot event model, in which a single long-lasting fault causes a dynamic failure, is presented based on the state trajectory and the allowed state space.

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