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Distribution by Scientific Domains
Medical Sciences40%
Engineering40%

Selected Abstracts

The eigenvalues of isolated bridges with transverse restraints at the end abutments

EARTHQUAKE ENGINEERING AND STRUCTURAL DYNAMICS, Issue 8 2010
Nicos Makris
Abstract This paper examines the eigenvalues of multi-span seismically isolated bridges in which the transverse displacement of the deck at the end abutments is restricted. With this constraint the deck is fully isolated along the longitudinal direction, whereas along the transverse direction the deck is a simple-supported beam at the end abutments which enjoys concentrated restoring forces from the isolation bearings at the center piers. For moderate long bridges, the first natural period of the bridge is the first longitudinal period, while the first transverse period is the second period, given that the flexural rigidity of the deck along the transverse direction shortens the isolation period offered by the bearings in that direction. This paper shows that for isolated bridges longer than a certain critical length, the first transverse period becomes longer than the first longitudinal period despite the presence of the flexural rigidity of the deck. This critical length depends on whether the bridge is isolated on elastomeric bearings or on spherical sliding bearings. This result is also predicted with established commercially available numerical codes only when several additional nodes are added along the beam elements which are modeling the deck in-between the bridge piers. On the other hand, this result cannot be captured with the limiting idealization of a beam on continuous distributed springs (beam on Wrinkler foundation),a finding that has practical significance in design and system identification studies. Finally, the paper shows that the normalized transverse eigenperiods of any finite-span deck are self-similar solutions that can be represented by a single master curve and are independent of the longitudinal isolation period or on whether the deck is supported on elastomeric or spherical sliding bearings. Copyright © 2009 John Wiley & Sons, Ltd. [source]

Dispersion of Nodes Added to a Network

GEOGRAPHICAL ANALYSIS, Issue 4 2005
Michael Kuby
For location problems in which optimal locations can be at nodes or along arcs but no finite dominating set has been identified, researchers may desire a method for dispersing p additional discrete candidate sites along the m arcs of a network. This article develops and tests minimax and maximin models for solving this continuous network location problem, which we call the added-node dispersion problem (ANDP). Adding nodes to an arc subdivides it into subarcs. The minimax model minimizes the maximum subarc length, while the maximin model maximizes the minimum subarc length. Like most worst-case objectives, the minimax and maximin objectives are plagued by poorly behaved alternate optima. Therefore, a secondary MinSumMax objective is used to select the best-dispersed alternate optima. We prove that equal spacing of added nodes along arcs is optimal to the MinSumMax objective. Using this fact we develop greedy heuristic algorithms that are simple, optimal, and efficient (O(mp)). Empirical results show how the maximum subarc, minimum subarc, and sum of longest subarcs change as the number of added nodes increases. Further empirical results show how using the ANDP to locate additional nodes can improve the solutions of another location problem. Using the p-dispersion problem as a case study, we show how much adding ANDP sites to the network vertices improves the p-dispersion objective function compared with (a) network vertices only and (b) vertices plus randomly added nodes. The ANDP can also be used by itself to disperse facilities such as stores, refueling stations, cell phone towers, or relay facilities along the arcs of a network, assuming that such facilities already exist at all nodes of the network. [source]

Improved lymph node retrieval in Whipple specimens as a result of implementation of a new uncinate margin protocol

HPB, Issue 5 2007
CORWYN H. ROWSELL
Abstract Background. Lymph node status is an important prognostic factor in pancreatic and peri-ampullary adenocarcinoma. We recently changed our protocol for assessment of the uncinate margin of Whipple specimens and noted that lymph nodes were often present in uncinate margin sections. Materials and methods. Whipple specimens from 2004 to 2006 were divided into two groups, those that were handled according to the en face protocol, and those handled according to the radial protocol. The numbers of lymph nodes found in uncinate margin sections were assessed, as well as the total number of nodes found in the specimen. Results. Sixteen cases were handled according to the en face protocol, and 20 according to the radial protocol. In the en face group, 2 benign nodes were found in the uncinate margin (0.1 nodes per case), while in the radial group, 36 nodes (1.8 nodes per case) were identified (p=0.0005). Eight cases in the latter group had positive nodes in the uncinate margin sections. In two of these cases the positive lymph node was the only lymph node with metastasis, and in an additional case the involved node was one of two positive lymph nodes. Total lymph node retrieval was 15.5 lymph nodes per case in the en face group, and 20 nodes per case in the radial group (p=0.02). Discussion. The improved lymph node retrieval may be due to additional nodes found in radial sections of the uncinate margin, or alternatively, due to increased vigilance in specimen handling. In 3 of 20 cases, nodes found in the radial sections influenced staging. [source]

Hiding role assignment in mission-critical collaborative systems

QUALITY AND RELIABILITY ENGINEERING INTERNATIONAL, Issue 3 2002
Xinwen Fu
Abstract In a mission critical collaboration system, a group of roles are assigned to computer nodes connected by a communication network. Role assignment is mission-critical information and needs to be protected. In this paper, we develop methods to effectively and efficiently protect the information of role assignment from traffic analysis, a passive attack. To measure the system security, we introduce a metric of detection probability, defined as the probability that a role assignment can be discovered. A heuristic greedy algorithm is given to minimize the resource consumption while guaranteeing a low detection-probability level. Our performance evaluation shows that the algorithm proposed in this paper performs well in terms of execution time and resource usage compared to an exhaustive search algorithm. We also propose to use additional means (e.g. additional nodes) to further increase the security level of a system at the cost of a mild resource consumption increase. Copyright © 2002 John Wiley & Sons, Ltd. [source]

The Extent of Axillary Lymph Node Clearance Required Following Detection of Sentinel Node Micrometastases

THE BREAST JOURNAL, Issue 5 2010
Mary F. Dillon MD
Abstract:, Sentinel node (SN) micrometastases are an indication to proceed to axillary clearance. The aim of this study is to determine the extent and level of axillary clearance required for patients with SN micrometastases. All patients with SN micrometastases which were followed by axillary clearances from 1999 to 2007 were identified. Slides were reviewed by a histopathologist to detail characteristics of SN micrometastases including size and site. The SN micrometastases and primary tumor characteristics were correlated with the presence and level of non-SN micrometastases. Fifty patients who had micrometastases followed by axillary clearances were identified. Of those 18% (n = 9) had non-SN metastases. Seven patients had metastases to level I, one patient had metastases to level I and III and one patient had non-SN metastases to level III only. No patient had metastases to level II. Patients with non-SN metastases had very limited number of non-SNs involved (maximum 2 non-SNs). No variable, including site of the micrometastasis, was predictive of non-SN metastases. In patients with SN micrometastases, a limited level I axillary clearance can be justified in view of the low number of additional nodes involved and in particular, the low (4%) rate of spread to level II/III nodes. [source]