StreamSight: A Query-Driven Framework for Streaming Analytics in Edge Computing
Ημερομηνία
2018Συγγραφέας
Georgiou, ZachariasSymeonides, Moysis
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Source
2018 IEEE/ACM 11th International Conference on Utility and Cloud Computing (UCC)Pages
143-152Google Scholar check
Metadata
Εμφάνιση πλήρους εγγραφήςΕπιτομή
Edge computing is the emerging architectural paradigm extending cloud technologies to the logical extremes of the network for on-demand and delay-sensitive services. However, once service placement on edge-enabling resources has been dealt with, a new challenge arises: how to process enormous volumes of streaming data to provide query-driven analytics while still satisfying the delay-critical servicing requirements. To overcome this challenge we introduce StreamSight, a framework for edge-enabled IoT services which provides a rich and declarative query model abstraction for expressing complex analytics on monitoring data streams and then dynamically compiling these queries into stream processing jobs for continuous execution on distributed processing engines. To overcome the resource restrictive barriers in edge computing deployments, StreamSight outputs the query execution plan so that intermediate results are reused and not continuously recomputed. In turn, StreamSight enables users to express various optimization strategies (e.g., approximate answers, query prioritization) and constraints (e.g., sample size, error-bounds) so that delay-sensitive requirements relevant to their deployment are not violated. We evaluate our framework on Apache Spark with real-world workloads and show that leveraging StreamSight can significantly increase performance by 4x while still satisfying all accuracy guarantees.