Public Deliverables:

• D0.2.2a BIONETS Newsletter Issue 1 [PDF]
• D0.2.2b BIONETS Newsletter Issue 2 [PDF]
• D0.2.2c BIONETS Newsletter Issue 3 [PDF]
• D0.2.2d BIONETS Newsletter Issue 4 [PDF]
• D0.2.2e BIONETS Newsletter Issue 5 [PDF]
• D0.2.2f BIONETS Newsletter Issue 6 [PDF]
• D1.1.1 Application scenario analysis, network architecture requirements and high-level specification [PDF]
• D3.1.1 Service architecture: requirement specification and concept definition [PDF]
• D1.2.1 Disappearing network, Infrastructure and Design: Functionality and Challenges [PDF]
• D2.2.2 Framework for distributed on-line evolution of protocols and services [PDF]
• D3.3.1 Initial description of macro-scenarios and potential business models for BIONETS implementation [PDF]
• D1.3.1 The initial mathematical models of new BIONETS network elements and algorithms [PDF]
• D2.2.1 Application of models of cooperation to network operation, design of P2P application, and social research through design [PDF]
• D3.2.1 Specification of service life-cycle [PDF]
• D4.1 Trust and reputation management system definition [PDF]
• D1.1.2 Architecture, Scenarios, and Requirements refinements [PDF]
• D1.2.2 Disappearing Network Autonomic Operation and Evolution [PDF]
• D1.3.2 BIONETS simulation framework and initial performance analysis [PDF]
• D2.1.1 Paradigms and Foundations of BIONETS Research - Preliminary Results [PDF]
• D2.2.3 Architecture definition of autonomic control loop based on social modelling [PDF]
• D3.1.2 Refinement of Service Architecture and Requirements [PDF]
• D3.3.2 BIONETS concept business evaluation and fine-tuning [PDF]
• D4.2 Towards security in BIONETS  [PDF]
• D4.3 Denial-of-Service Resistant Data Dissemination in BIONETS  [PDF]
• D1.1.3/3.1.3 SerWorks Architecture v1.0  [PDF]
• D2.2.5 Application of game theory and statistical physics models to BIONETS architecture protocols and services  [PDF]
• D3.2.4 Advanced Service Life-Cycle and Integration  [PDF]
• D3.4.1 Outcomes of service probes implementation and evaluations  [PDF]
• D5.4 Pervasive Ubiquitous Peer-to-Peer context-aware Application  [PDF]
• D1.2.3 Service-Matched Networking  [PDF]
• D1.3.3 BIONETS Performance Analysis  [PDF]
• D3.2.5 Evaluating the Fitness of Service Compositions  [PDF]
• D3.3.3 Enhanced BIONETS business concepts  [PDF]
• D4.4 Adaptive Security in BIONETS  [PDF]
• D2.2.4 Evolution and Gene expression in BIONETS: A Mathematical and Experimental Framework  [PDF]
• D4.4 Adaptive Security in BIONETS  [PDF]
• D3.2.5 Evaluating the Fitness of Service Compositions   [PDF]
• D5.5 BIONETS@Work   [PDF]
• D2.2.9 Mathematical Framework for Interaction Computing with Applications to Security and Service Choreography   [PDF]
• D4.5 Reputation, Authentication, Anonymity, and Privacy in BIONETS   [PDF]
• D2.2.8 Robustness and Evolvability of Artificial Polymer Chemistries in Online Evolution   [PDF]
• D3.3.4 BIONETS Service Description with Analysis   [PDF]
• D2.2.10 Advanced applications of game theory, electromagnetism and statistical physics   [PDF]
• D3.2.6 Bio inspired service creation and evolution   [PDF]
• D5.6 Digital City   [PDF]
• D1.1.3/3.1.3 SerWorks Architecture v2.0  [PDF]