https://cis.temple.edu/~jiewu/research/publications/Publication_files/Paper%206750%20Camera%20Ready%20Version.pdf
One solu-tion involves adjusting model parameters and adding Gaus-sian noise [Xie et al., 2021; Nguyen and et al., 2022], which can counteract backdoor attacks, but may reduce model ef-ficiency.
https://cis.temple.edu/~jiewu/research/publications/Publication_files/Paper%206190%20Camera%20Ready%20Version.pdf
Therefore, sharing com- mon prototypes to leverage data from other clients is an ef- fective strategy. Inspired by this, we introduced prototype alignment in our FedAvg and FedRep experiments to ensure global prototype consistency across classes, improving gen- eralization.
https://www.hpc.temple.edu/mhpc/hpc-technology/exercise2/pxelinux.html
01-MAC-address (01-DE-AD-BE-EF-09-39) Full 32 bits of the IP address (C0A81101) Most significant bytes of IP address (C0A811, C0A8, C0) to capture ranges default Try this by creating a customized Boot Menu for c01. You can use the gethostip command to determine the 32bit hexadecimal of an IP address:
https://cis.temple.edu/~jiewu/research/publications/Publication_files/FedCPD.pdf
Despite partially mitigating historical information forgetting, this strategy’s ef-ficacy in extracting local features declines when client data exhibits substantial heterogeneity.
https://igem.temple.edu/people/person/9618981a88ef50abe188884e7a511363
Big data are ubiquitous in genomics and evolutionary biology, at scales from personalized medicine to the global timetree of life. Research in my lab integrates mathematical, computational, and machine-learning techniques into evolutionary biology and biomedicine. We develop methods, models, software, and databases for researching species divergence, genetic diseases, viral spread, and tumor ...
https://cis.temple.edu/~latecki/Papers/GIFT-IEEEMM2017.pdf
In summary, we call the feature in (12) Aggregated Contextual Activation (ACA). Next, we will introduce some improvements of (12) concerning its retrieval accuracy and computational ef-ficiency. 1) Improving Accuracy: Similar to diffusion process, the proposed ACA requires an accurate estimation of the context in the data manifold.
https://cis.temple.edu/~jiewu/research/publications/Publication_files/m37113-chen%20final.pdf
o ef-ficiently execute CNN workloads in resource- and power-constrained environments [50]. In the context of SR, He et al. [51] proposed a highly ptimized FPGA-based hardware accelerator specifically tailored to the FSRCNN [52] network. Additionally, Kim et al. [53] adopted a hardware-software co-
https://www2.law.temple.edu/lppp/scholars/2025-scholars/
Maria Consuelo “Cielo” De Dios, LAW ’27, is a Conwell Scholar and a Law and Public Policy Scholar at Temple University Beasley School of Law. After obtaining her bachelor’s degree in psychology and educational studies, she worked as an Educational Researcher under the EF + Math Program.
https://www.fox.temple.edu/sites/fox/files/SHMM_isre.2018.0831.pdf
Indeed, the structural model helps decom-pose heterogeneous treatment effects by engagement segment, which, in turns, empowers businesses to target the most ef cient users to effectively meet the fi challenge of low engagement with mobile apps.
https://sites.temple.edu/pdames/files/2016/07/DamesTokekarKumarISRR2015.pdf
Let Xt = fx1;t;x2;t;:::;xnt;tg denote a realization of a RFS of target states at time t. A probability distribution of a RFS is characterized by a discrete distribution over the cardinality of the set and a family of densities for the elements of the set conditioned on the size, i.e.,