1,721,057 research outputs found
Schedulability Envelope for Real-Time Radar Dwell Scheduling and Its Application to Multi-Ship Multi-Radar Systems
No full textModern lightweight approach for design and implementation of workflow-based clinical guidance system
Full text linkPreventable medical error is the third leading cause of death in the US, taking just over 22,000 lives a year. To minimize preventable medical errors, healthcare practitioners have adopted the use of clinical decision support systems (CDSS) into their workflow in the past decades. However, there are still many existing challenges for developing a successful CDSS. We propose an XState-React-Redux framework for the design and development of clinical guidance systems. We believe that the proposed framework provides an approach for building lightweight, safety-prone, physician-friendly, configurable, extendable, and portable clinical guidance systems that could effectively improve adherence to clinical best practice and ensure the translation of clinical guidelines to high-quality clinical practice.Submission published under a 24 month embargo labeled 'Closed Access', the embargo will last until 2023-05-01The student, Luting Chen, accepted the attached license on 2021-04-27 at 13:20.The student, Luting Chen, submitted this Thesis for approval on 2021-04-27 at 13:49.This Thesis was approved for publication on 2021-04-28 at 11:42.DSpace SAF Submission Ingestion Package generated from Vireo submission #16587 on 2021-09-16 at 20:14:39Made available in DSpace on 2021-09-17T04:06:56Z (GMT). No. of bitstreams: 2
CHEN-THESIS-2021.pdf: 894908 bytes, checksum: 5c854cd4367ced1190ab9c267f970820 (MD5)
LICENSE.txt: 4207 bytes, checksum: 714f5379822ddfd559f172d89c8ba699 (MD5)
Previous issue date: 2021-04-28Embargo set by: Seth Robbins for item 118715
Lift date: 2023-09-17T04:07:01Z
Reason: Author requested closed access (OA after 2yrs) in Vireo ETD systemAuthor requested closed access (OA after 2yrs) in Vireo ETD systemLimite
Predictable inter-core communication for strictly partitioned real-time multi-core systems
Full text linkThe Federal Aviation Administration (FAA) in its recent CAST-32A certification guidance suggests that more than one core in a multi-core chip for safety-critical avionics applications can be used only if all the inter-core interference channels have been bounded and accounted for. Researchers have proposed frameworks to partition and regulate access to shared resources, such that multi-core processors can be deployed for safety-critical avionics applications. Strict partitioning of memory resources among cores, however, does not allow inter-core communication.
In this paper, we propose a Communication Core Model(CCM) that implements the inter-core communication by bounding the amount of intercore interference in a partitioned multi-core system. A system level perspective of how to realize such CCM along with the implementation details is provided. A formula to derive WCET of the tasks using CCM is provided. We compare our CCM with Contention-based Communication (CBC) where no private banking is enforced for any core. The results of the analytical approach using San Diego Vision Benchmark Suite (SD-VBS) for two models indicate that the CCM shows an improvement of up to 65 percent when compared to the CBC. Moreover, our experimental results indicate that the measured WCET of the tasks of SD-VBS is within the bounds calculated using the proposed analysis.Submission published under a 24 month embargo labeled 'Closed Access', the embargo will last until 2021-05-01The student, Jen-Yang Wen, accepted the attached license on 2019-04-19 at 18:45.The student, Jen-Yang Wen, submitted this Thesis for approval on 2019-04-19 at 18:49.This Thesis was approved for publication on 2019-04-22 at 12:27.DSpace SAF Submission Ingestion Package generated from Vireo submission #13801 on 2019-08-22 at 16:23:26Made available in DSpace on 2019-08-23T20:48:21Z (GMT). No. of bitstreams: 2
WEN-THESIS-2019.pdf: 556807 bytes, checksum: e881ea39f01c9059c87cfad6d203847e (MD5)
LICENSE.txt: 4205 bytes, checksum: d0449abdd9125ec04a37a74dc2fde376 (MD5)
Previous issue date: 2019-04-22Embargo set by: Seth Robbins for item 112359
Lift date: 2021-08-23T20:48:32Z
Reason: Author requested closed access (OA after 2yrs) in Vireo ETD systemLimited Restriction Lifted for Item 112359 on 2021-08-24T09:15:20Z
Implementation and remote delivery of Embedded Systems labs on the arduino platform
Full text linkSubmission published under a 24 month embargo labeled 'U of I Access', the embargo will last until 2023-12-01The student, Rafael Fauza, accepted the attached license on 2021-12-10 at 10:55.The student, Rafael Fauza, submitted this Thesis for approval on 2021-12-10 at 10:59.This Thesis was approved for publication on 2021-12-10 at 13:45.DSpace SAF Submission Ingestion Package generated from Vireo submission #17447 on 2022-04-06 at 17:18:08Made available in DSpace on 2022-04-29T21:47:49Z (GMT). No. of bitstreams: 2
FAUZA-THESIS-2021.pdf: 7946764 bytes, checksum: ef598ce57985f0cd59f384c1e30446be (MD5)
LICENSE.txt: 4209 bytes, checksum: 07ee652edae8a1a01be53305f6ad81b7 (MD5)
Previous issue date: 2021-12-10Embargo set by: Seth Robbins for item 123397
Lift date: 2024-04-29T21:47:53Z
Reason: Author requested U of Illinois access only (OA after 2yrs) in Vireo ETD systemAuthor requested U of Illinois access only (OA after 2yrs) in Vireo ETD systemU of I OnlyA knowledge of Embedded Systems empowers a computer scientist to solve problems extending beyond the virtual environment of the computer, into the physical world. Such systems are becoming increasingly ubiquitous and constantly extending to new applications, from smart devices, to self-driving cars, to rockets and spacecraft. While knowledge in this area is continues to grow in importance, most students of Computer Science still do not get experience with Embedded Systems, since this is not part of a standard Computer Science education. In this thesis, we have developed 5 laboratory assignments that cover topics including the required electronics knowledge, and low-level control of registers, timers, interrupts, analog and digital I/O, serial communication and servo motors. We believe that the material covered in these assignments, and explored in detail in this text, will provide students with the necessary knowledge and vocabulary to communicate with dedicated Embedded Engineers in industry, or to explore the area further for their own personal development
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