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However, workflow systems to date do not provide the flexibility necessary to support the dynamic nature of business processes.
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Workflow technology is currently one of the most promising fields of research in business process automation. : Business environments have become exceedingly dynamic and competitive in recent times. Live demonstrations of running the technology on several real-life long-term monitoring assignments are shown. A new Zoom-on-the-Evidence browsing technique featured by ACE Surveillance is introduced. The first component deals with detection and archival of annotated evidence, which is normally performed on a client’s desktop computer, The latter deals with browsing and displaying archived video evidence and can be performed either locally on client’s computer or remotely via a dedicated server. We describe the main features of this technology as related to its two components: ACE-Capture and ACE-Browser. – Here we present ACE-Surveillance – automated surveillance technology based on real-time Annotation of Critical Evidence, – that provides an efficient and low-cost solution to the problem. The main reason for this is the amount of time and resources an average user has to dedicate in order to collect video data and then to dig through it searching for evidence when using traditional DVR-based. In turn, this will assist the scientific community to expedite its contributions and insights into this evolving computing field.ĭespite the population’s growing awareness of the need to use surveillance systems for better security in private and business settings, such systems still have not become commonplace. Better comprehension of the technology would enable the community to design more efficient portals and gateways for the cloud, and facilitate the adoption of this novel computing approach in scientific environments. The contribution of this paper lies in being one of the first attempts to establish a detailed ontology of the cloud. Towards the end-goal of a thorough comprehension of the field of cloud computing, and a more rapid adoption from the scientific community, we propose in this paper an ontology of this area which demonstrates a dissection of the cloud into five main layers, and illustrates their interrelations as well as their inter-dependency on preceding technologies. Manifesting itself as the descendant of several other computing research areas such as service-oriented architecture, distributed and grid computing, and virtualization, cloud computing inherits their advancements and limitations. Cloud computing is one contemporary technology in which the research community has recently embarked. Progress of research efforts in a novel technology is contingent on having a rigorous organization of its knowledge domain and a comprehensive understanding of all the relevant components of this technology and their relationships.