{"product_id":"self-stabilizing-systems","title":"Self-Stabilizing Systems","description":"Self- governing control is a defining characteristic of autonomous computing machinery. Autonomy implies some degree of independence, and when a system's ability to achieve its mission is independent of how it is initialized, the system is self-stabilizing. Application of self-stabilization to system and network components is motivated by core concerns of fault-tolerance in distributed systems. Self-stabilization is a solution to problems of transient memory faults and systems with dynamic reconfigurations. Research in self-stabilization explores many of the classic themes of distributed computing (distributed graph algorithms, mutual exclusion, distributed agreement). Recent papers combine self-stabilization with traditional forms of fault-tolerance, consider methodological issues for the design of self-stabilizing systems, investigate randomized techniques, and apply stabilization to new networking models. The workshop brings together concerns from theory and practice of self-stabilization.","brand":"McGill-Queen's University Press","offers":[{"title":"Default Product","offer_id":54217361949016,"sku":"9780886293338","price":47.99,"currency_code":"EUR","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0278\/1295\/4195\/files\/9780886293338__676ecaa15b7e5.jpg?v=1741157013","url":"https:\/\/agendabookshop.com\/products\/self-stabilizing-systems","provider":"Agenda Bookshop","version":"1.0","type":"link"}