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Identifier 000443694
Title Multiplatform incremental OTAP strategy for resource-constrained IoT devices
Alternative Title Πολυπλατφορµική στρατηγική για την επαυξητική ασύρματη ενημέρωση συσκευών διαδικτύου-των-πραγμάτων περιορισμένων πόρων
Author Αρακαδάκης, Κωνσταντίνος Ε.
Thesis advisor Δημητρόπουλος, Ξενοφώντας
Reviewer Μαγκούτης, Κωνσταντίνος
Haddadi, Hamed
Abstract The Internet of Things (IoT) presents itself as an emerging technology, which is able to interconnect a soaring number of heterogeneous smart devices around the world, for supporting complex data-driven applications in a variety of domains. The ability to wirelessly update these devices is paramount, as it allows the integration of additional functionality into their firmware, the resolution of code errors and security vulnerabilities, or even their complete re-purpose, without physically accessing them. Such Over-the-Air Programming (OTAP) solutions require the compaction of the transmitted data during a network update, in order to reduce the energy consumption in the network, which is due to the necessary communication operations. To meet this need, IoT devices can also be updated using a technique, called incremental programming, that avoids the retransmission of the entire firmware, when an updated version has been released. The most common form of this technique is through the so-called differencing algorithms, that execute at a firmware server and aim to detect common segments between two firmware versions, producing an encoded patch that is disseminated to the network. This way, the devices can utilise parts of the firmware they currently run, in order to reconstruct the updated version locally. In this work, we survey techniques, protocols, and schemes that focus on the reduction of the transmissions during a network update, and have found widespread application in large-scale IoT networks. We also emphasize the essential steps of the firmware update process, along with the proposed approaches and techniques that implement them. Besides, we discuss contributions that focus on the security aspects of OTAP, as recent cyberattacks have revealed that unsecured update strategies can allow adversaries to inject faulty or malicious firmware into a network, manipulating its operation. Furthermore, we present a differencing algorithm we have developed, called Dfinder, that can compute small patches, based on delta encoding. The algorithm has O(nlogn) time and O(n) space complexity, and utilises enhanced suffix arrays and state-of-the-art construction techniques, that enable the efficient detection of common segments between two firmware versions. Additionally, we propose an extension of the algorithm, that halves the storage requirements at the receiver, so that devices with limited storage can also be updated, incrementally. Finally, we integrate Dfinder in an OTAP testbed and show that it can reduce the update time and the corresponding energy consumption of IoT networks up to 96%.
Language English
Subject Delta encoding
Internet-of-things
Over-the-Air Programming
Διαδίκτυο-των-πραγμάτων
Κωδικοποίηση "Δέλτα"
Issue date 2021-11-26
Collection   School/Department--School of Sciences and Engineering--Department of Computer Science--Post-graduate theses
  Type of Work--Post-graduate theses
Permanent Link https://elocus.lib.uoc.gr//dlib/5/1/9/metadata-dlib-1637581027-864941-1457.tkl Bookmark and Share
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