Call for Papers

Computational methods to represent, model and analyze problems using social information have come a long way in the last decade. Computational methods, such as social network analysis, have provided exciting insights into how social information can be utilized to better understand social processes, and model the evolution of social systems over time. We have also seen a rapid proliferation of sensor technologies, such as smartphones and medical sensors, for collecting a wide variety of social data, much of it in real time. Meanwhile, the emergence of parallel architectures, in the form of multi-core/many-core processors, and distributed platforms have provided new approaches for large-scale modeling and simulation, and new tools for analysis. These two trends have dramatically broadened the scope of computational social systems research, and are enabling researchers to tackle new challenges. These challenges include modeling of real world scenarios with dynamic and real-time data, and formulating rigorous computational frameworks to embed social and behavioral theories while taking into account ramifications in relation to policy, ethics, privacy and other areas. This workshop provides a platform to bring together interdisciplinary researchers from areas, such as computer science, social sciences, applied mathematics and engineering, to showcase innovative research in computational social systems that leverage the emerging trends in parallel and distributed processing, computational modeling, and high performance computing.
Areas of research interests and domains of applications include, but are not limited to:

Social Computing Algorithms

  • Algorithms for massive and dynamic social data
  • Social sensing
  • Big Cross-Modal Social Media Data Analytics
  • Novel machine learning/data mining-based techniques
  • Algorithms and novel techniques to accelerate training/prediction of deep learning, neural networks and large language models (LLMs) for social computing
  • Social Internet of Things (SIoT)
  • Computing for social good and privacy
  • Social network analysis with incomplete, uncertain social data
  • Social computing for heterogeneous architectures (e.g. cloud, multi-core/many-core, GPU, and neuromorphic computing architectures)

Large-Scale Modeling and Simulation for Social Systems

  • Social network-based models
  • Models of social interactions and network dynamism (e.g. influence spread, group formation, group stability, and social resilience)
  • Complex Adaptive System (CAS) models (e.g. modeling emergence in social systems)
  • Models incorporating socio-cultural factors
  • Novel agent based social modeling and simulation
  • Modeling with uncertain, incomplete and real-time social data
  • Representations of social and behavioral theories in computational models
  • Simulation methodologies for social processes including numerical and statistical methods
  • Modeling human and social elements in cyber systems (e.g. cyber-physical systems, and socio-technical systems)

Application

Domains of applications include but are not limited to:
  • Emergency management (e.g. infrastructure resilience, and natural disaster management)
  • Financial Technology (e.g. algorithmic trading, blockchains, and P2P lending)
  • Health science (e.g. health informatics and health policy models)
  • Social analytics (e.g. business analytics and economic analysis)
  • Political science (e.g. political influence, fake news and election predictions)