Spam over Internet Telephony (SPIT) will become a serious threat in the near future because of the growing number of Voice over IP (VoIP) users, the ease of spam implementation, and the low cost of VoIP service. Due to the real-time processing requirements of voice communication, SPIT is more difficult to filter than email spam. In this paper, we propose a trust-based mechanism that uses the duration of calls and call direction between users to distinguish legitimate callers from spammers. The trust value is adjustable according to the calling behavior. We also propose a trust inference mechanism in order to calculate a trust value for an unknown caller to a callee. Realistic simulation results show that our approaches are effective in discriminating spam calls from legitimate calls.
Spam over Internet Telephony (SPIT) will become a serious threat in the near future because of the growing number of Voice over IP (VoIP) users. Due to the real-time processing requirements of voice communication, SPIT is more difficult to filter than email spam. We propose a trust-based mechanism that uses the duration of calls between users to distinguish legitimate callers and spammers. The trust value is adjustable according to the calling behavior. We also propose a trust inference mechanism in order to calculate a trust value for an unknown caller to a callee. Realistic simulation results show that our approaches are effective at discriminating spam calls from legitimate calls.
The Oil & Gas industry's increased activity in high pressure and high temperature developments requires effective solutions to meet the new challenges placed on threaded connections for Oil Country Tubular Goods (OCTG) to withstand the extreme loads imposed by these applications, such as combined external pressure and compression. Therefore, OCTG threaded connections have to withstand extremely high levels of combined loadings while maintaining structural and sealing integrity for tubing and casing strings. As of today, very few of the existing casing connections can comply with the severest protocol of ISO 13679, CAL-IV, within the full pipe body envelope; ISO13679 is the international standard detailing the testing procedures for casing and tubing connections. To meet these requirements, a new high-performance threaded and coupled casing premium connection was developed. This development was conducted by iterating Finite Element Analysis (FEA) results and prototype physical testing. As a first step, an innovative sealing technology consisting of a pioneering mid pin nose sealing mechanism with extended lip combined with a stabilizing feature was developed for a specific Outside Diameter (OD) size. This concept was then extended to a product line, and the connection geometry was optimized by FEA leading to a design freeze for OD's between 9-5/8" to 13-3/8" covering commonly used industry weights. As recommended by the ISO13679 standard, all of the designed sizes/weights were physically tested based on a polygon approach, that is, all of product line corners defined by sizes and wall thickness were verified by physical tests while sizes/weights falling within the polygon were verified by FEA. Ease of usage under adverse conditions of alignment was a major feature retained throughout the design phases of this new premium connection. On one hand, the anti-galling and the stabbing performances were optimized to fit automated rig handling systems thanks to a new thread profile. On the other hand, the seal geometry and its position were designed to protect the connection from damages due to rough handling. These features have been validated through extensive Make & Break tests and rig trials. Through this development, an innovative high-performance premium threaded connection, named VAM® 21, compliant with ISO 13679 CAL-IV protocol within the full pipe body VME envelope and having excellent handling and running performances is now available as a product line. Introduction With the increase development of HPHT and offshore deepwater wells in recent years, the performance requirements of OCTG and threaded connections, particularly compression loads and external pressure integrity are escalating. Although ISO 13679 is the worldwide standard for physical qualification testing of OCTG threaded connections, there has been so far very few high-performance premium threaded connections complying with this testing procedure, especially CAL-IV level protocol within the full pipe body envelope. This has prompted the need for a reliable premium threaded connection which is able to be assembled quickly and safely under adverse conditions of alignment often encountered on offshore automatic handling and running systems. To achieve trouble free make up performances as well as retaining sealing integrity within the full pipe body envelope, application of innovative technologies to premium threaded connections was needed.
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