(PRELIMINARY)
November 29th (Tuesday) | |
9:00-17:00 | Workshops |
17:00-18:30 | RTSS@Work |
18:30 | Welcome Cocktail |
November 30th (Wednesday) | |
8:15-8:30 | Welcome Marco Caccamo (University of Illinois at Urbana-Champaign) and Frank Mueller (North Carolina State University) |
8:30-9:00 | AWARD SPEECH REAL-TIME THINKING: For Real Problems and More Krithi Ramamritham, IIT Bombay |
9:00-10:00 | Session 1: System Design Models Chair: Nan Guan A Framework for Supporting Real-Time Applications on Dynamic Reconfigurable FPGAs Decomposed Reachability Analysis for Nonlinear Systems |
10:00-10:30 | Coffee Break |
10:30-12:30 | Session 2: Mixed Criticality Chair: Rob Davis Schedulability analysis for a general model of mixed-criticality recurrent real-time tasks EDF-VD Scheduling of Mixed-Criticality Systems with Degraded Quality Guarantees Dynamic Budget Management with Service Guarantees for Mixed-Criticality Systems Reconciling the Tension Between Hardware Isolation and Data Sharing in Mixed-Criticality, Multicore Systems |
12:30-14:00 | Lunch |
14:00-15:30 | Session 3: Power in the Grid Chair: Daniel Mosse On-Line Event-Driven Scheduling for Electric Vehicle Charging via Park-and-Charge Real-Time Data and Energy Management for Microgrids Offline Guarantee and Online Management of Power Demand and Supply in Cyber-Physical Systems |
15:30-16:00 | Coffee Break |
16:00-17:30 | Session 4: Outstanding papers Chair: Frank Mueller Global Scheduling Not Required: Simple, Near-Optimal Multiprocessor Real-Time Scheduling with Semi-Partitioned Reservations Resource-Oriented Partitioned Scheduling in Multiprocessor Systems: How to Partition and How to Share? Exploring Opportunistic Execution for Integrating Security into Legacy Hard Real-Time Systems |
17:30-19:30 | Work-in-Progress Session and Posters |
19:30 | Reception |
December 1st (Thurdsday) | |
9:00-10:00 | KEYNOTE Chair: Frank Mueller Industrial Digitalization – The Fourth Industrial Revolution!? Thomas Lagerberg (ABB Sweden) |
10:00-10:30 | Coffee Break |
10:30-12:30 | Session 5: IoT and Networking Chair: Sibin Mohan Sporadic Decision-centric Data Scheduling with Normally-off Sensors Exploiting Power Grid for Accurate and Secure Clock Synchronization in Industrial IoT Enabling Predictable Wireless Data Collection in Severe Energy Harvesting Environments End-to-end Real-time Guarantees in Wireless Cyber-physical Systems |
12:30-14:00 | Lunch |
14:00-15:30 | Session 6: Operating and Runtime Systems Chair: Marcus Voelp MARACAS: A Real-Time Multicore VCPU Scheduling Framework Timeline: An Operating System Abstraction for Time-Aware Applications RandomizedWork Stealing for Large Scale Soft Real-time Systems |
15:30-16:00 | Coffee Break |
16:00-17:30 | Session 7: Multicore Scheduling Chair: Bjoern Andersson On the Dominance of Minimum-Parallelism Multiprocessor Supply The federated scheduling of systems of mixed-criticality sporadic DAG tasks On the Decomposition-based Global EDF Scheduling of Parallel Real-Time Tasks |
17:30-18:30 | TC Meeting |
19:30 | Banquet |
December, 2nd (Friday) | |
8:30-10:00 | Session 8: Power-aware Scheduling Chair: Cong Liu Value-based Task Scheduling for Nonvolatile Processor-based Embedded Devices Reducing Deadline Misses and Power Consumptions in Real-Time Databases Energy-Aware Real-Time Task Scheduling on Local and Shared Memory System |
10:00-10:30 | Coffee Break |
10:30-12:30 | Session 9: Handling Contention and Faults Chair: Isabelle Puaut BUNDLE: Real-Time Multi-Threaded Scheduling to Reduce Cache Contention A Blocking Bound for Nested FIFO Spin Locks Systems with Dynamic Real-Time Guarantees in Uncertain and Faulty Execution Environments RIGHT ON TIME DISTRIBUTED SHARED MEMORY |
12:30-14:00 | Lunch |
14:00-15:30 | Session 10: Scheduling and Analysis Chair: Bjoern Brandenburg Computational Complexity and Speedup Factors Analyses for Self-Suspending Tasks Closing the Loop for the Selective Conversion Approach: A Utilization-based Test for Hard Real-Time Suspending Task Systems k2Q: A Quadratic-Form Response Time and Schedulability Analysis Framework for Utilization-Based Analysis |