43,418 research outputs found
Effects of Transit Signal Priority on Traffic Safety: Interrupted Time Series Analysis of Portland, Oregon, Implementations
Transit signal priority (TSP) has been implemented to transit systems in many
cities of the United States. In evaluating TSP systems, more attention has been
given to its operational effects than to its safety effects. Existing studies
assessing safety effects of TSP reported mixed results, indicating that the
safety effects of TSP vary in different contexts. In this study, TSP
implementations in Portland, Oregon, were assessed using interrupted time
series analysis (ITSA) on month-to-month changes in number of crashes from
January 1995 to December 2010. Single-group and controlled ITSA were conducted
for all crashes, property-damage-only crashes, fatal and injury crashes,
pedestrian-involved crashes, and bike-involved crashes. Evaluation of the
post-intervention period (2003 to 2010) showed a reduction in all crashes on
street sections with TSP (-4.5 percent), comparing with the counterfactual
estimations based on the control group data. The reduction in
property-damage-only crashes (-10.0 percent) contributed the most to the
overall reduction. Fatal and injury crashes leveled out after TSP
implementation but did not change significantly comparing with the control
group. Pedestrian and bike-involved crashes were found to increase in the
post-intervention period with TSP, comparing with the control group. Potential
reasons to these TSP effects on traffic safety were discussed.Comment: Published in Accident Analysis & Preventio
Layout Decomposition for Quadruple Patterning Lithography and Beyond
For next-generation technology nodes, multiple patterning lithography (MPL)
has emerged as a key solution, e.g., triple patterning lithography (TPL) for
14/11nm, and quadruple patterning lithography (QPL) for sub-10nm. In this
paper, we propose a generic and robust layout decomposition framework for QPL,
which can be further extended to handle any general K-patterning lithography
(K4). Our framework is based on the semidefinite programming (SDP)
formulation with novel coloring encoding. Meanwhile, we propose fast yet
effective coloring assignment and achieve significant speedup. To our best
knowledge, this is the first work on the general multiple patterning
lithography layout decomposition.Comment: DAC'201
Spare capacity allocation using shared backup path protection for dual link failures
This paper extends the spare capacity allocation (SCA) problem from single link failure [1] to dual link failures on mesh-like IP or WDM networks. The SCA problem pre-plans traffic flows with mutually disjoint one working and two backup paths using the shared backup path protection (SBPP) scheme. The aggregated spare provision matrix (SPM) is used to capture the spare capacity sharing for dual link failures. Comparing to a previous work by He and Somani [2], this method has better scalability and flexibility. The SCA problem is formulated in a non-linear integer programming model and partitioned into two sequential linear sub-models: one finds all primary backup paths first, and the other finds all secondary backup paths next. The results on five networks show that the network redundancy using dedicated 1+1+1 is in the range of 313-400%. It drops to 96-181% in 1:1:1 without loss of dual-link resiliency, but with the trade-off of using the complicated share capacity sharing among backup paths. The hybrid 1+1:1 provides intermediate redundancy ratio at 187-310% with a moderate complexity. We also compare the passive/active approaches which consider spare capacity sharing after/during the backup path routing process. The active sharing approaches always achieve lower redundancy values than the passive ones. These reduction percentages are about 12% for 1+1:1 and 25% for 1:1:1 respectively
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