https://cis.temple.edu/~latecki/Courses/CIS2033-Spring12/ElementaryProbabilityforApplications/ch3.pdf
5/36 5 The same result holds if B = “The first die is k” and 2 ≤ k ≤ 6. Carrying this reasoning further, we see that given the outcome lies in A, all five possibilities have the same probability. This should not be surprising. The original probabil-ity is uniform over the 36 possibilities, so when we condition on the occurrence of A, its five outcomes are equally likely.
https://www.fox.temple.edu/sites/fox/files/targetingPPT.GBM_-1.pdf
Targeted Promotions on an E-Book Platform : Crowding Out, Heterogeneity, and Opportunity Costs Nathan Fong, Yuchi Zhang, Xueming Luo, and Xiaoyi Wang
https://faculty.cst.temple.edu/~dfuter/research/ubiquitous-qf.pdf
We prove that every finite-volume hyperbolic 3–manifold M contains a ubiquitous collection of closed, immersed, quasi-Fuchsian surfaces. These surfaces are ubiq-uitous in the sense that their preimages in the universal cover separate any pair of disjoint, nonasymptotic geodesic planes. The proof relies in a crucial way on the corresponding theorem of Kahn and Markovic for closed 3 ...
https://www.fox.temple.edu/sites/fox/files/targeting-crowdout-jmr19.pdf
Abstract Targeted promotions based on individual purchase history can increase sales. However, the opportunity costs of targeting to optimize promoted product sales are poorly understood. A series of randomized field experiments with a large e-book platform shows that although targeted promotions increase promoted product sales and purchases of similar products, they can crowd out purchases of ...
https://faculty.cst.temple.edu/~yury/LH4lam.pdf
We generalize the classical Legendre-Hadamard conditions by using quadratic extensions of the energy around a set of two configurations and obtain new algebraic necessary conditions for nonsmooth strong local minimizers. The implied bounds of stability are easily accessible as we illustrate on a nontrivial example where quasiconvexification is unknown.
https://cis.temple.edu/~latecki/Papers/Quan_DRBANET_ICIP_2022.pdf
ABSTRACT Due to the powerful ability to encode image details and semantics, many lightweight dual-resolution networks have been proposed in recent years. However, most of them ignore the benefit of boundary information. This paper introduces a lightweight dual-resolution network, called DRBANet, aim-ing to refine semantic segmentation results with the aid of boundary information. DRBANet also ...
https://sites.temple.edu/borguet/files/2025/01/structure-of-water-2014.pdf
ABSTRACT: The properties of water molecules located close to an interface deviate significantly from those observed in the homogeneous bulk liquid. The length scale over which this structural perturbation persists (the so-called interfacial depth) is the object of extensive investigations. The situation is particularly complicated in the presence of surface charges that can induce long-range ...
https://cis.temple.edu/~jiewu/research/publications/Publication_files/ICDE2024_Online_Federated_Learning_on_Distributed_Unknown_Data_Using_UAVs.pdf
Abstract—Along with the advance of low-altitude economy, a variety of applications based on Unmanned Aerial Vehicles (UAVs) have been developed to accomplish diverse tasks. In this paper, we focus on the scenario of multiple UAVs performing Federated Learning (FL) tasks. Specifically, a group of UAVs is scheduled to repeatedly visit some Points of Interest (PoIs), collect the data produced ...
https://cis.temple.edu/~apal/ccgrid_iot.pdf
Abstract—In this paper we examine the problem of conflict detection and mitigation across multiple independently designed IoT subsystems deployed in a shared environment. The desired behavior of the system is codified in terms of predefined “safety properties”. We allow both the operational rules and safety properties to include time and temporal logic operations and detect their ...
https://secretary.temple.edu/sites/secretary/files/policies/03.70.12.pdf
Temple University Student Government has adopted a unity statement that reflects the values of the diverse Temple community, by which all students are expected to abide. “As Temple Owls, we respect all members of our university and local community regardless of: race, ethnicity, sex, gender, identity, sexual orientation, age, religion, socioeconomic status, veteran status, political ...