2014
DOI: 10.1504/ijsse.2014.064833
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Sustainability of systems of systems

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Cited by 21 publications
(10 citation statements)
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“…The 21st century landscape is defined by themes of ambiguity -increasing lack of clarity and situational understanding, complexity -large numbers of richly interdependent and dynamically interacting systems with behaviour difficult to predict, emergence -inability to deduce behaviour, structure, or performance from constituent elements, interdependence -mutual influence among complex systems through which the state of a system influences and is influenced by, the state of interconnected systems and uncertainty -incompleteness in understanding, predicting, or controlling of systems (Flood and Carson, 1993;Skyttner, 2005;Katina et al, 2014aKatina et al, , 2014b. Under such conditions, organisations must be viewed as complex interdependent systems rather that simple and isolated systems (Hammond, 2002;Laszlo, 1996).…”
Section: Introductionmentioning
confidence: 99%
“…The 21st century landscape is defined by themes of ambiguity -increasing lack of clarity and situational understanding, complexity -large numbers of richly interdependent and dynamically interacting systems with behaviour difficult to predict, emergence -inability to deduce behaviour, structure, or performance from constituent elements, interdependence -mutual influence among complex systems through which the state of a system influences and is influenced by, the state of interconnected systems and uncertainty -incompleteness in understanding, predicting, or controlling of systems (Flood and Carson, 1993;Skyttner, 2005;Katina et al, 2014aKatina et al, , 2014b. Under such conditions, organisations must be viewed as complex interdependent systems rather that simple and isolated systems (Hammond, 2002;Laszlo, 1996).…”
Section: Introductionmentioning
confidence: 99%
“…Third, the operating landscape/environment for Smart Grids is characteristically complex, involving a range of socio and technical issues [92]. The articulation of the current state of the Smart Grids problem domain can be characterized consistent with earlier works [45,46,[48][49][50][51] and the notion of 'messes' by [1] as well as 'wicked problems' by [74]. Table 5 provide articulates characteristics of a landscape from which Smart Grids are projected to operate.…”
Section: Smart Grid Characteristics and Landscapementioning
confidence: 69%
“…. comprising of advanced sensing, control, communication and information processing, emergent intelligence distributed across various segments of the power grid will transform the grid to a highly interactive and adaptive system European Union [22], p. 45 . .…”
Section: Smart Grid Characteristics and Landscapementioning
confidence: 99%
“…In contrast, a SoS does not have a defined lifecycle, is resistant to stable requirements definition, and can evolve rapidly without a single solution emerging. This tenuous nature of SoS amplifies as constituent systems add, modify, or drop, based on the continuing need for the SoS to fulfill a mission (Katina et al 2014). In short, the stability necessary for traditional systems engineering does not exist for SoSE.…”
Section: Introductionmentioning
confidence: 99%