Elad Schiller
Elad Michael Schiller is interested in both in the theory of distributed computing and its applications to new and existing systems and technologies. He is an expert in self-stabilizing systems for a variety of settings including dynamic large-scale systems such as mobile ad-hoc networks. In addition, he explores new settings, such as systems that have to handle selfishness in addition to defending against malicious adversaries. The application of this theory is especially important for cooperative systems, such as vehicular systems and networks (VANETs).
Showing 113 publications
Near-Optimal Communication Byzantine Reliable Broadcast Under a Message Adversary
LLMSecCode: Evaluating Large Language Models for Secure Coding
Self-stabilizing multivalued consensus in asynchronous crash-prone systems
AI/ML-based services and applications for 6G-connected and autonomous vehicles
Self-stabilizing Byzantine Multivalued Consensus: (extended abstract)
Self-stabilizing indulgent zero-degrading binary consensus
Self-stabilizing Byzantine fault-tolerant repeated reliable broadcast
Self-stabilizing Byzantine-Tolerant Recycling
Evaluation of Open-Source Tools for Differential Privacy
Renaissance: A self-stabilizing distributed SDN control plane using in-band communications
Brief Announcement: Self-stabilizing Total-Order Broadcast
Self-stabilizing Byzantine Fault-Tolerant Repeated Reliable Broadcast
Self-stabilizing Multivalued Consensus in Asynchronous Crash-prone Systems
Self-Stabilizing Indulgent Zero-degrading Binary Consensus
Self-stabilizing Uniform Reliable Broadcast
A Self-stabilizing Control Plane for Fog Ecosystems
Self-stabilizing SET-constrained delivery broadcast
Self-stabilization overhead: A case study on coded atomic storage
Self-stabilizing manoeuvre negotiation: The case of virtual traffic lights
Practically-self-stabilizing vector clocks in the absence of execution fairness
Shared-object system equilibria: Delay and throughput analysis
Practically-self-stabilizing virtual synchrony
Renaissance: A self-stabilizing distributed SDN control plane
Self-stabilizing Byzantine Tolerant Replicated State Machine Based on Failure Detectors
How to stop disagreeing and start cooperating in the presence of asymmetric packet loss
A Self-Organizing Distributed and In-Band SDN Control Plane
Self-stabilizing reconfiguration
Shared-object system equilibria: Delay and throughput analysis
DecTDMA: A Decentralized-TDMA with Link Quality Estimation for WSNs
Towards predictable vehicular networks
Self-stabilizing reconfiguration
Static and dynamic performance evaluation of low-cost RTK GPS receivers
Robust and Private Distributed Shared Atomic Memory in Message Passing Networks
Self-stabilizing virtual synchrony
Brief Announcement: Self-stabilizing Virtual Synchrony
Practically Stabilizing Virtual Synchrony
Shared-object System Equilibria: Delay and Throughput Analysis
LibReplay: Deterministic Replay for Bug Hunting in Sensor Networks
Rationality authority for provable rational behavior
Self-stabilizing TDMA algorithms for wireless ad-hoc networks without external reference
Driving with Confidence: Local Dynamic Maps That Provide LoS for the Gulliver Test-bed
Cooperation with disagreement correction in the presence of communication failures
Vehicular coordination via a safety kernel in the gulliver test-bed
A kernel-based architecture for safe cooperative vehicular functions
The KARYON Project: Predictable and Safe Coordination in Cooperative Vehicular Systems
Self-stabilizing TDMA Algorithms for Wireless Ad-hoc Networks without External Reference
Bridging Physical and Digital Traffic System Simulations with the Gulliver Test-Bed
Self-stabilizing TDMA Algorithms for Wireless Ad-Hoc Networks without External Reference
Self-Stabilizing Byzantine Resilient Topology Discovery and Message Delivery
Self-Stabilizing Byzantine Resilient Topology Discovery and Message Delivery
On Using the Gulliver Platform for Bridging Physical and Digital Traffic System Simulations
Model-based, Composable Simulation for the Development of Autonomous Miniature Vehicles
The KARYON project: Predictable and safe coordination in cooperative vehicular systems
Self-Stabilizing TDMA Algorithms for Dynamic Wireless Ad Hoc Networks
Cooperative driving for best road network capacity
Self-Stabilizing TDMA Algorithms for Dynamic Wireless Ad-hoc Networks
Gulliver: A test-bed for developing, demonstrating and prototyping vehicular systems
KARYON: Towards Safety Kernels for Cooperative Vehicular Systems
Autonomous TDMA Alignment for VANETs
Gulliver: a test-bed for developing, demonstrating and prototyping vehicular systems
Rationality authority for provable rational behavior
Robust and scalable middleware for selfish-computer systems
Secure and self-stabilizing clock synchronization in sensor networks
Game authority for robust and scalable distributed selfish-computer systems
Secure and Self-stabilizing Clock Synchronization in Sensor Networks
When consensus meets self-stabilization
Chameleon-MAC: Adaptive and Self-* Algorithms for Media Access Control in Mobile Ad Hoc Networks
Interacting Urns Processes for Clustering of Large-Scale Networks of Tiny Artifacts
Analyzing Protocols for Media Access Control in Large-Scale Mobile Ad Hoc Networks (invited talk)
Secure and Self-stabilizing Clock Synchronization in Sensor Networks
Relocation Analysis of Stabilizing MAC Algorithms for Large-Scale Mobile Ad Hoc Networks
Interacting urns processes: for clustering of large-scale networks of tiny artifacts
Relocation Adaptive and Stable MAC Algorithm for Large-Scale and Highly Mobile Ad Hoc Networks
Self-stabilization from theory to practice
Secure and Self-Stabilizing Clock Synchronization in Sensor Networks
Game Authority for Robust and Scalable Distributed Selfish Computer Systems
Secure and Fault-Tolerant Clock Synchronization in Sensor Networks
Hovering Data Clouds: A Decentralized and Self-organizing Information System.
Random Walk for Self-Stabilizing Group Communication in Ad Hoc Networks.
Game Authority for Robust Distributed Selfish-Computer Systems (Preliminary Version)
When Consensus Meets Self-stabilization
Autonomous virtual mobile nodes.
Autonomous virtual mobile nodes.
Virtual Mobile Nodes for Mobile Ad Hoc Networks.
Virtual Mobile Nodes for Mobile Ad Hoc Networks
Brief announcement: virtual mobile nodes for mobile ad hoc networks.
Self-stabilizing group communication in directed networks.
Communication Adaptive Self-Stabilizing Group Membership Service.
Self-Stabilizing Group Communication in Directed Networks.
Random walk for self-stabilitzing group communication in ad hoc networks.
Random Walk for Self-Stabilizing Group Communication in Ad-Hoc Networks.
Easy Stabilization with an Agent.
Communication Adaptive Self-Stabilizing Group Membership Service.
Knowledge Discovery with FlexiMine
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Showing 7 research projects
Meeting Automotive Liability Challenges through Forensics Soundness (MAGIC)
Privacy-Protected Machine Learning for Transport Systems
AUTOSPADA (Automotive Stream Processing and Distributed Analytics) OODIDA Phase 2
intelligent TRAffic maNagement System based on ITS (iTRANSIT)
Noggrann positionering av cyklister
Kernel-based ARchitecture for safetY-critical cONtrol (Karyon)