55 research outputs found
Choreographing Configuration Changes
This paper describes the automatic generation of a set of reactive agents capable of autonomously reconfiguring a computing infrastructure into a specified goal state. The agent interactions are guaranteed to be deadlock/live-lock free, can preserve pre-specified global constraints during their execution, and autonomically maintain the goal state once it has been achieved. We describe novel algorithms for the generation and execution of the agent model, and evaluate the results on some realistic problems, using a prototype implementation
Privacy Policy Negotiation in Social Media
Social Media involve many shared items, such as photos, which may concern
more than one user. The first challenge we address in this paper is to develop
a way for users of such items to take a decision on to whom to share these
items. This is not an easy problem, as users' privacy preferences for the same
item may conflict, so an approach that just merges in some way the users'
privacy preferences may provide unsatisfactory results. We propose a
negotiation mechanism for users to agree on a compromise for the conflicts
found. The second challenge we address in this paper relates to the exponential
complexity of such a negotiation mechanism, which could make it too slow to be
used in practice in a Social Media infrastructure. To address this, we propose
heuristics that reduce the complexity of the negotiation mechanism and show how
substantial benefits can be derived from the use of these heuristics through
extensive experimental evaluation that compares the performance of the
negotiation mechanism with and without these heuristics. Moreover, we show that
one such heuristic makes the negotiation mechanism produce results fast enough
to be used in actual Social Media infrastructures with near-optimal results
Report on the CyCAT winter school on fairness, accountability, transparency and ethics (FATE) in AI
The first FATE Winter School, organized by the Cyprus Center for Algorithmic Transparency (CyCAT) provided a forum for both students as well as senior researchers to examine the complex topic of Fairness, Accountability, Transparency and Ethics (FATE). Through a program that included two invited keynotes, as well as sessions led by CyCAT partners across Europe and Israel, participants were exposed to a range of approaches on FATE, in a holistic manner. During the Winter School, the team also organized a hands-on activity to evaluate a tool-based intervention where participants interacted with eight prototypes of bias-aware search engines. Finally, participants were invited to join one of four collaborative projects coordinated by CyCAT, thus furthering common understanding and interdisciplinary collaboration on this emerging topic
Genome of the Komodo dragon reveals adaptations in the cardiovascular and chemosensory systems of monitor lizards
Monitor lizards are unique among ectothermic reptiles in that they have high aerobic capacity and distinctive cardiovascular physiology resembling that of endothermic mammals. Here, we sequence the genome of the Komodo dragon Varanus komodoensis, the largest extant monitor lizard, and generate a high-resolution de novo chromosome-assigned genome assembly for V. komodoensis using a hybrid approach of long-range sequencing and single-molecule optical mapping. Comparing the genome of V. komodoensis with those of related species, we find evidence of positive selection in pathways related to energy metabolism, cardiovascular homoeostasis, and haemostasis. We also show species-specific expansions of a chemoreceptor gene family related to pheromone and kairomone sensing in V. komodoensis and other lizard lineages. Together, these evolutionary signatures of adaptation reveal the genetic underpinnings of the unique Komodo dragon sensory and cardiovascular systems, and suggest that selective pressure altered haemostasis genes to help Komodo dragons evade the anticoagulant effects of their own saliva. The Komodo dragon genome is an important resource for understanding the biology of monitor lizards and reptiles worldwide
How to make a sex chromosome
Sex chromosomes can evolve once recombination is halted between a homologous pair of chromosomes. Owing to detailed studies using key model systems, we have a nuanced understanding and a rich review literature of what happens to sex chromosomes once recombination is arrested. However, three broad questions remain unanswered. First, why do sex chromosomes stop recombining in the first place? Second, how is recombination halted? Finally, why does the spread of recombination suppression, and therefore the rate of sex chromosome divergence, vary so substantially across clades? In this review, we consider each of these three questions in turn to address fundamental questions in the field, summarize our current understanding, and highlight important areas for future work
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