Abstract is missing.
- A hypercube model based on DSM/DMM for armament system of systems modeling and evaluationPengle Zhang, Yajie Dou, Ke-Wei Yang, Jiang Jiang. 1-6 [doi]
- Evaluating a framework for visualizing system of systems engineering research coverageStephen C. Cook, Timothy L. J. Ferris. 7-12 [doi]
- Bibliometric and social network analysis of the SoS fieldGuang-rong You, Xiao Sun, Min Sun, Ji-min Wang, Ying-Wu Chen. 13-18 [doi]
- Fundamental measures of the complex SoS capability oriented to the planning and decision-making of engineering constructionBin Zhang, Ruijun Li, Jing Zhang, Wei Zhao, Lijian Tang. 19-24 [doi]
- Determination of stakeholders' consensus over values of system of systemsMohammad Rajabalinejad, G. Maarten Bonnema. 25-30 [doi]
- Systemic intervention to tackle the constraints and challenges facing stakeholders and the performance of the agricultural sector in GhanaKwamina E. Banson, Nam C. Nguyen, Ockie J. H. Bosch. 31-36 [doi]
- Factors influencing cross-cultural adaptation process in systems engineering practice performed by Indonesian expatriate engineersIka S. Windiarti, Timothy L. J. Ferris, Matthew J. Berryman. 37-42 [doi]
- A capability based approach to improve effectiveness of information and computer technologiesMikhail V. Belov. 43-48 [doi]
- Failure propagation in SoS: Why SoS should be loosely coupledMahmoud Efatmaneshnik, Michael Ryan. 49-54 [doi]
- Research on SoS Capability Gaps analysis method and the supporting software realizationJing Zhang, Bin Zhang, Ze-min Li, Shuai Shi, Wei Zhao. 55-60 [doi]
- Systems theory for a competency model frameworkJoseph M. Bradley, Charles B. Keating. 61-66 [doi]
- Co-modelling and co-simulation in the engineering of systems of cyber-physical systemsJohn S. Fitzgerald, Ken G. Pierce, Peter Gorm Larsen. 67-72 [doi]
- SysML contracts for systems of systemsJeremy Bryans, John S. Fitzgerald, Richard Payne, Alvaro Miyazawa, Klaus E. Kristensen. 73-78 [doi]
- Electricity load and price forecasting with influential factors in a deregulated power industrySaima Hassan, Abbas Khosravi, Jafreezal Jaafar, M. Qamar Raza. 79-84 [doi]
- A hybrid model for named entity recognition using unstructured medical textSara Keretna, Chee Peng Lim, Douglas C. Creighton. 85-90 [doi]
- System of systems capability to requirements engineeringJo Ann Lane. 91-96 [doi]
- Neural spike representation using CepstrumSherif Haggag, Shady M. K. Mohamed, Asim Bhatti, Hussein Haggag, Saeid Nahavandi. 97-100 [doi]
- Based on ontology methodology to model and evaluate System of Systems (SoS)Yan He, Jing Zhang, Li-qun Yue, Ze-min Li, Lijian Tang. 101-106 [doi]
- A 'wicked problem' - Predicting sos behaviour in tactical land combat with compromised C4ISRDavid G. A. Ormrod. 107-112 [doi]
- An approach for managing semantic heterogeneity in Systems of Systems EngineeringSimon Foster, Alvaro Miyazawa, Jim Woodcock, Ana Cavalcanti, John S. Fitzgerald, Peter Gorm Larsen. 113-118 [doi]
- Application of service-oriented architecture to equipment SoS joint simulationZe-min Li, Jing Zhang, Zhiqiang Liu, Lili Chen, Ji-juan Xing. 119-123 [doi]
- SysML fault modelling in a traffic management system of systemsClaire Ingram, Zoe Andrews, Richard Payne, Nico Plat. 124-129 [doi]
- Research on verification and validation of conceptual model of weapons system of systems simulationXiao-yang Chen, Ji-juan Xing, Nai-hua Song. 130-135 [doi]
- A system of systems approach to defence experimentation: CAGE IIIAAndrew Flahive. 136-141 [doi]
- Innovation and emergent technologies for defence - Logic and creativityAse K. Jakobsson, Regina Crameri, Elena Mazourenko, Diana Shrimpton. 142-147 [doi]
- Efficacy comparison of clustering systems for limb detectionHussein Haggag, Mohammed Hossny, Sherif Haggag, Saeid Nahavandi, Douglas C. Creighton. 148-153 [doi]
- Governance implications for meeting challenges in the system of systems engineering fieldCharles B. Keating. 154-159 [doi]
- A perceptual computing-based approach for peer assessmentKok Chin Chai, Kai Meng Tay. 160-165 [doi]
- Hidden Markov model neurons classification based on Mel-frequency cepstral coefficientsSherif Haggag, Shady M. K. Mohamed, Hussein Haggag, Saeid Nahavandi. 166-170 [doi]
- Innovations in understanding the whole of Australian defence system of systemsGary J. Bulluss, Kevin O'Shea, Nicholas T. Tay, Peter Pong. 171-176 [doi]
- Methodologies for the identification and integration of emerging and disruptive technologiesColby D. Raley, Paul S. Gaertner. 177-182 [doi]
- A multi-paradigm modelling & simulation approach for system of systems engineering: A case studyWilliam Ross, Mihaela Ulieru, Alex Gorod. 183-188 [doi]
- Improving the design of a human-in-the-loop joint fires experimentEdward H. S. Lo, T. Andrew Au, Peter J. Hoek. 189-194 [doi]
- Success factors for urgent technology insertion into military systems of systemsSasa Baskarada, Tim McKenna, Tim McKay. 195-200 [doi]
- System of systems engineering for the airport slot allocation problemMario Ramirez Ferrero, Felix Antonio Villafanez Cardenoso, José Alberto Araúzo Araúzo, Adolfo López-Paredes. 201-206 [doi]
- Research on capability evaluation modeling of armored system-of-systemsGuo-xiong Zhan, Fa Lu, Jiang Jiang, Yajie Dou, Ke-Wei Yang. 207-212 [doi]
- Defence and security implications of technology changesHarry J. Woodroof, Ase K. Jakobsson. 213-218 [doi]
- An operational efficiency evaluation method for weapon system-of-systems combat networks based on operation loopJichao Li, Chunxiao Fu, Yingwu Chen, Ke-Wei Yang, Xiaoke Zhang. 219-223 [doi]
- Detection, identification and tracking of mobile objects with distributed system of systemsAndri Riid, Jürgo Preden, Sergei Astapov. 224-229 [doi]
- Reliable monitoring of oil and gas pipelines using wireless sensor network (WSN) - REMONGHusnain Saeed, Salman Ali, Sidra Rashid, Saad B. Qaisar, Emad A. Felemban. 230-235 [doi]
- Collaborative planning - The connective tissue for enterprise systems engineeringRichard J. Hodge, C. M. D. R. Aaron Young, Brian McBride. 236-241 [doi]
- Framing measures for accountability in complex enterprisesRichard J. Hodge. 242-247 [doi]
- Measuring project complexityBrett Nan Tie, Jeroen Bolluijt. 248-253 [doi]
- Simulation-based ant colony optimization for complex system configuration problemsTianjun Liao, Ruijun Li, Guangrong You, Ke-Wei Yang. 254-259 [doi]
- Assessing global change impacts on defence using a System-of-Systems perspectiveJane Holloway. 260-265 [doi]
- Managing cyber security risks in industrial control systems with game theory and viable system modellingTheodoros Spyridopoulos, Konstantinos Maraslis, Theo Tryfonas, George C. Oikonomou, Shancang Li. 266-271 [doi]
- Integrating simulation capabilities into SysML for enterprise information system designAnargyros Tsadimas, Georgios-Dimitrios Kapos, Vassilis Dalakas, Mara Nikolaidou, Dimosthenis Anagnostopoulos. 272-277 [doi]
- A complexity driven approach for risk evaluation in use-oriented product-service systems supply chainsMayada Omer, Anirban Ganguly, Florian G. H. Behncke, Christoph Hollauer. 278-283 [doi]
- LGT/VOT tracking performance evaluation of depth imagesHussein Haggag, Mohammed Hossny, Sherif Haggag, Jingjing Xiao, Saeid Nahavandi, Douglas C. Creighton. 284-288 [doi]
- Towards modelling and analysing non-functional properties of systems of systemsVanea Chiprianov, Katrina E. Falkner, Laurent Gallon, Manuel Munier. 289-294 [doi]
- Towards designing innovative SoSE approaches for the Australian defence forceStephen C. Cook, Jaci M. Pratt. 295-300 [doi]
- Value-based scheduling in system of systems evolutionRichard Turner. 301-306 [doi]