03325nam 2200817Ia 450 991065603100332120200520144314.097866132799349781118155226111815522X978128327993212832799329781118154465111815446097819329732041932973206(CKB)111086906336494(EBL)818838(OCoLC)794327467(SSID)ssj0000079614(PQKBManifestationID)11110928(PQKBTitleCode)TC0000079614(PQKBWorkID)10076125(PQKB)11618023(Au-PeEL)EBL3007589(CaPaEBR)ebr10185401(CaONFJC)MIL327993(OCoLC)923618259(Au-PeEL)EBL818838(CaSebORM)1882197771(MiAaPQ)EBC3007589(MiAaPQ)EBC818838(EXLCZ)9911108690633649420040924d2003 uy 0engur|n|---|||||txtccrMaintaining team performance /Kim Kanaga and Henry Browning1st editionGreensboro, N.C. Center for Creative Leadershipc20031 online resource (34 p.)Ideas into action guidebooksCCL no. 420"CCL No. 420"--Title page verso."For the Practicing Manager"--Cover.9781882197774 1882197771 Includes bibliographical references (p. 25).Title page; Table of Contents; Monitoring and Maintenance for Successful Team Outcomes; Dimensions of Team Effectiveness - Knowing the Success Factors; Monitoring Team Effectiveness - Using the Success Factors; Reading the Signals; Assessing Your Team's Performance; Is This Still the Team You Need?; Suggested Readings; Background; Key Point Summary; Lead ContributorsBetween the time a team is launched and the time it delivers results, managers need to know that the team is on course. Whether they have launched a team to achieve a business objective or have inherited a team, they need to monitor effectiveness on an ongoing basis and make course corrections that keep small problems from becoming major disasters.Monitoring and maintaining team performance is a key element of leading a team. You can provide that leadership by paying attention to four important dimensions: team member effort, team member knowledge and skills, team tactics, and group dynamiReport (Center for Creative Leadership) ;no. 420.Ideas into action guidebooks.Teams in the workplaceOrganizational effectivenessElectronic books. localTeams in the workplace.Organizational effectiveness.658.4658.402Kanaga Kim862661Browning Henry912345Center for Creative Leadership.MiAaPQMiAaPQMiAaPQBOOK9910656031003321Maintaining team performance2481729UNINA04764nam 22007815 450 991091377730332120251225200449.09789819606177981960617910.1007/978-981-96-0617-7(CKB)36702043100041(MiAaPQ)EBC31806894(Au-PeEL)EBL31806894(DE-He213)978-981-96-0617-7(OCoLC)1481795520(EXLCZ)993670204310004120241129d2024 u| 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierFormal Methods and Software Engineering 25th International Conference on Formal Engineering Methods, ICFEM 2024, Hiroshima, Japan, December 2–6, 2024, Proceedings /edited by Kazuhiro Ogata, Dominique Mery, Meng Sun, Shaoying Liu1st ed. 2024.Singapore :Springer Nature Singapore :Imprint: Springer,2024.1 online resource (421 pages)Lecture Notes in Computer Science,1611-3349 ;153949789819606160 9819606160 -- NL2CTL: Automatic Generation of Formal Requirements Specifications via Large Language Models. -- Repairing Event-B Models through Quantifier Elimination. -- Tuning Trains Speed in Railway Scheduling. -- The Bright Side of Timed Opacity. -- Clock-Dependent Probabilistic Timed Automata with One Clock and No Memory. -- Efficient State Estimation of Discrete-Timed Automata. -- LRNN: A Formal Logic Rules-Based Neural Network for Software Defect Prediction. -- Quantitative Symbolic Robustness Verification for Quantized Neural Networks. -- Graph Convolutional Network Robustness Verification Algorithm Based on Dual Approximation. -- Formal Kinematic Analysis of Epicyclic Bevel Gear Trains. -- Deciding the synthesis problem for hybrid games through bisimulation. -- Formal Analysis of FreeRTOS Scheduler on ARM Cortex-M4 Cores. -- Differential Property Monitoring for Backdoor Detection. -- MemSpate: Memory Usage Protocol Guided Fuzzing. -- The Continuum Hypothesis Implies the Existence of Non-Principal Arithmetical Ultrafilters – A Coq Formal Verification. -- Observability of Boolean Control Networks: New Definition and Verification Algorithm. -- Formalizing Potential Flows using the HOL Light Theorem Prover. -- On-the-Fly Proof-Based Verification of Reachability in Autonomous Vehicle Controllers Relying on Goal-Aware RSS. -- Efficient SMT-Based Model Checking for HyperTWTL. -- A Tableau-based Approach to Model Checking Linear Temporal Properties. -- Simple LTL Model Checking on Finite and Infinite Traces over Concrete Domains. -- Model Checking Concurrency in Smart Contracts with a Case Study of Safe Remote Purchase.This volume LNCS 15394 constitutes the refereed proceedings of 25th International Conference on Formal Engineering Methods, ICFEM 2024, in Hiroshima, Japan, in December 2024. The 22 full papers presented were carefully reviewed and selected from 50 submissions. The conference focuses on wide range of research areas, covering both theoretical foundations and practical applications of formal engineering methods.Lecture Notes in Computer Science,1611-3349 ;15394Computer scienceComputer programmingSoftware engineeringCompilers (Computer programs)Application softwareNatural language processing (Computer science)Theory of ComputationProgramming TechniquesSoftware EngineeringCompilers and InterpretersComputer and Information Systems ApplicationsNatural Language Processing (NLP)Computer science.Computer programming.Software engineering.Compilers (Computer programs)Application software.Natural language processing (Computer science)Theory of Computation.Programming Techniques.Software Engineering.Compilers and Interpreters.Computer and Information Systems Applications.Natural Language Processing (NLP).004.0151Ogata Kazuhiro1777785Méry Dominique0Sun Meng1369709Liu Shaoying1742754MiAaPQMiAaPQMiAaPQBOOK9910913777303321Formal Methods and Software Engineering4299587UNINA