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  • 51.
    Silfverskiöld, Stefan
    et al.
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS).
    Liwång, Hans
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska tillämpningar (MteT).
    Hult, Gunnar
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM).
    Sivertun, Åke
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS).
    Bull, Peter
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska tillämpningar (MteT).
    Sigholm, Johan
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS).
    Lundmark, Martin
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS).
    von Gerber, Carl
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska tillämpningar (MteT).
    Andersson, Kent
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS).
    Sturesson, Peter
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS).
    Technology Forecast 2017 - Military Utility of Future Technologies: A Report from Seminars at the Swedish Defence University’s (SEDU) Military-Technology Division2017Rapport (Övrigt vetenskapligt)
    Abstract [en]

    Two technology forecast reports from the Fraunhofer Institute, three reports from the Swedish Defence Research Institute (FOI) and two publications from the Massachusetts Institute of Technology (MIT) have been reviewed by staff at the Military-Technology Division at the Swedish Defence University (SEDU). The task given by the Defence Material Administration (FMV) was to assess the military utility of the given technologies in a time frame to up 2040, from a Swedish Armed Forces (SwAF) perspective.

    In the review we assessed the military utility of certain technologies as possible contributions to the operational capabilities of the SwAF, based on identified and relevant scenarios. Because a new capability catalogue is under development at the SwAF Headquarters, this report only presents general assessments of the capability impact of the technologies studied.

    The technologies were grouped into four classes: potentially significant, moderate, negligible, or uncertain military utility.

    The classification uncertain military utility was given to technologies that are difficult to put in the other three classes, it was not because the technology readiness level (TRL) will not bereached by 2040.

    The following technologies were assessed to have the potential for significant military utility:

    - Nanocarbons for photonic applications

    The following technologies were assessed to have a potential for moderate military utility;

    - Internet of things (IoT)

    - Materials and technologies for protection against chemical agents

    The following technologies were assessed to have uncertain military utility;

    - Post-quantum cryptography

    - New applications for hyperspectral image analysis for chemical and biological agents

    No technology was found to have negligible military utility.

    The method used in this technology forecast report was to assign each report to one reviewer in the working group. Firstly, each forecast report was summarized. The Fraunhofer assessment of technical readiness level (TRL) in the time period was held to be correct. Each technology was then put into one or more scenarios that were assessed to be suitable for assessing the military utility as well as indicating any possibilities and drawbacks. Based on a SWOTanalysis, the assessed contributions to the fundamental capabilities, and to the factors DOTMPLFI (Doctrine, Organization, Training, Materiel, Leadership, Personnel, Facilities and Interoperability), were listed. Furthermore, the expected SwAF R&D requirements, to facilitate the introduction of the technology are given. The Military utility was assessed using a model developed by the Military-Technology Division. Finally, conclusions and an overall rating of the potential military utility of each technology were presented.

    The chosen definition of military utility clearly affects the result of the study. The definition used here (“the military utility of a certain technology is its contribution to the operational capabilities of the SwAF, within identified relevant scenarios”) has been used in our Technology Forecasts since 2013.

    Our evaluation of the method used shows that there is a risk that assessments can be biased by the participating experts’ presumptions and experience from their own field of research. It should also be stressed that the seven technologies’ potential military utility was assessed within the specific presented scenarios and their possible contribution to operational capabilities within those specific scenarios, not in general. When additional results have been found in the analysis, this is mentioned.

    The greatest value of the method used is its simplicity, cost effectiveness and that it promotes learning within the working group. The composition of the working group and the methodology used are believed to provide a broad and balanced coverage of the technologies being studied. This report should be seen as an executive summary of the research reports and the intention is to help the SwAF Headquarters to evaluate the military utility of emerging technologies within identified relevant scenarios.

    Overall, the research reports are considered to be balanced and of high quality in terms of their level of critical analysis regarding technology development. These reports are in line with our task to evaluate the military utility of the emerging technologies.

  • 52.
    Spak, Ulrik
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Ledningssektionen (Ledn).
    Effective and efficient command and control: a concept method for inquiring the impact of visual representation on order quality2019Ingår i: 24th International Command and Control Research and Technology Symposium (ICCRTS): Cyber Risk to Mission / [ed] Alberts, David, International Command and Control Institute , 2019, Vol. Topic 2, artikel-id 42Konferensbidrag (Refereegranskat)
    Abstract [en]

    What is effective and efficient command and control (C2)? One way of answering this question is to measure the quality of products generated within the C2-process. The main product from the C2-system, in purpose of directing and coordinating the execution system, is undoubtedly the order. One might think that the quality of orders directly correlates to effects generated in the operational environment. However, because of the unforeseeable and unavoidable events in the operational environment, such a causal relation is not necessary true. This paper presents a concept method for experimentally testing relations between order quality and outcomes, by using a simulated microworld in which such events are controlled.

    One particular aspect of order quality is the representation of the actual tasks and goals. This work propose an approach that connects to earlier work on operational pictures as a requisite for situation awareness in general and mission understanding in particular. Further, this paper suggests that orders could be adapted to the situation at hand by complementing the textual order with visualizations of military tasks and goals. This line of investigation owns its specific timeliness to the escalating focus on, and need for, mission command in multi-domain C2 in a context of both military and civil defence.

  • 53.
    Spak, Ulrik
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Ledningssektionen (Ledn).
    The common operational picture: A powerful enabler or a cause of severe misunderstanding?2017Ingår i: 22st International Command and Control Research and Technology Symposium (ICCRTS): Frontiers of C2 / [ed] Alberts, David, International Command and Control Institute , 2017, Vol. Topic 4, artikel-id 63Konferensbidrag (Refereegranskat)
    Abstract [en]

    The representation of the operational environment is crucial in all military operations because it is a necessity for the command and control (C2) function that provides the operation with direction and coordination. The representation, typically in the form of a common operational picture (COP), is considered the key element for establishing situation awareness and understanding for the commander and his/her staff. This article begins by presenting a theoretical overview of the COP concept. Thereafter, empirical support is given that officers conceptualize the COP differently, relating it to different stages of the C2 process and referring to the COP as sometimes an artifact and sometimes a mental state or a product in the human mind. For example, some officers may focus on the representation of the current operational environment; others may focus on representations of courses of actions whereas others may focus on future planned events. This may cause severe misunderstanding when officers use the COP concept in communication.

    This article provides a proposition to make the COP concept more specific – connecting the different stages in the C2 process to specific instantiations of the COP. Moreover, regardless of which stage in the C2 process the instantiations of the COP relate to, it has to be adapted to that specific stage in order to be a powerful enabler. This article concludes by introducing a new concept, the Prepared Common Operational Picture (PCOP).

  • 54.
    Spak, Ulrik
    et al.
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Ledningssektionen (Ledn).
    Andersson, Isabell
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Ledningssektionen (Ledn).
    Design logic in practice: a method to extract design criteria for future C2 systems2018Ingår i: Proceedings of the 23rd International Command and Control Research and Technology Symposium (ICCRTS): Multi-Domain C2 / [ed] David Alberts, International Command and Control Institute , 2018, Vol. Track 3, artikel-id 61Konferensbidrag (Refereegranskat)
    Abstract [en]

    The world we live in is a complex system tinged with constant change. In order to cope with this fact, a defense mission system needs to adapt to these challenges. The command and control (C2) system is the component of the defense mission system that is our system of interest, our unit of analysis, in this paper. We present a first attempt to use a method based on design logic complemented with scenario driven exercises, to extract requirements and more fine-grained design criteria to enhance design of future C2 systems.

    As a starting point, three scenarios were developed that intended to reflect key features of future potential conflicts. A number of subject matter experts (SMEs) participated representing strategic, operational and tactical levels of command. The SMEs were asked to state their C2 requirements in each of the scenarios. The resulting set of C2 requirements were analyzed to find design criteria pertaining to the general C2 functions (Data Providing, Orientation, Planning, Influence, and Communication) in Brehmer´s design-logic hierarchy (Purpose, Function and Form). The results indicate that the method can be usefull to find requirements and design criteria for future C2-systems.

  • 55.
    Spak, Ulrik
    et al.
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Ledningssektionen (Ledn).
    Carlerby, Mats
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Ledningssektionen (Ledn).
    Modelling command and control: the challenge of integrating structure and behaviour2018Ingår i: Proceedings of the 23rd International Command and Control Research and Technology Symposium (ICCRTS): Multi-Domain C2 / [ed] David Alberts, International Command and Control Institute , 2018, Vol. Track 5, artikel-id 72Konferensbidrag (Refereegranskat)
    Abstract [en]

    This paper presents an introduction to why it is difficult, and still desirable, to integrate the perspectives of structure and behaviour when modelling command and control (C2). We use basic systems theory in combination with theories from the field of C2 as underpinning for our arguments. The structural perspective is necessary to describe the organization of, and relation between, entities relevant for C2. The behavioural viewpoint is necessaryto put focus on the purpose of C2, which is to enable an adequate response to a problemor a situation at hand. The various problems are typically of a complex character, which includes dynamic changes and therefore has to be handled with feedback, or cybernetic, approaches. However, structure and behaviour are not easy to integrate, as will be evident in this paper.

  • 56.
    Sturesson, Peter
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS). Ångström Space Technology Centre (ÅSTC), Uppsala University, Sweden.
    Sense, Actuate and Survive: Ceramic Microsystems for High-Temperature Aerospace Applications2018Doktorsavhandling, sammanläggning (Övrigt vetenskapligt)
    Abstract [en]

    In aerospace applications, but also in manufacturing, mining, energy industry and natural hazards, high temperature, corrosion, erosion and radiation, challenge the performance and being of hardware.

    In this work, high-temperature co-fired ceramic (HTCC) alumina and platinum have been used for a range of devices intended for aerospace applications at up to 1000°C.

    The thermomechanics of a pressure sensor was investigated, and the interfacing was attained by wireless powering and reading. However, read range was limited and sensitivity decreased with temperature. Silver, electroplated after sintering, was found to remedy this until it eventually alloyed with platinum.

    Copper was electroplated and oxidized for oxygen storage in a microcombustor, intended for sample preparation for optogalvanic spectroscopy (OGS) to indicate extraterrestrial life. Despite delamination, caused by residual stresses, the device operated successfully.

    Conversely, pre-firing metallization by integration of platinum wires was studied. Freely suspended, and despite heat-induced shape irregularities, these were found advantageous over screen printed elements for gas heating, and temperature and pressure sensing. By fusing off the wires, spherical tips, allowing for impedance monitoring of microplasma sources in, e.g., OGS, were formed.

    Microplasma sources can also be used for gas heating. This, together with screen printed and suspended resistive heaters, was evaluated in a microthruster, showing that plasma heating is the most effective, implying fuel consumption reduction in satellite propulsion.

    In conclusion, HTCC alumina microdevices are thermally stable and could benefit several aerospace applications, especially with the complementary metallization schemes devised here.

    Future developments are expected to include both processing and design, all with the intention of sensing, actuating and surviving in high-temperature environments.

  • 57.
    Sturesson, Peter
    et al.
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS).
    Bull, Peter
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska tillämpningar (MteT).
    On the Applicability and Military Utility of Microsystems in Military Jet EnginesManuskript (preprint) (Övrigt vetenskapligt)
  • 58.
    Sturesson, Peter
    et al.
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS). Ångström Space Technology Centre, Dept. of Engineering Sciences, Uppsala University, Sweden; Division of Microsystems Technology, Dept. of Engineering Sciences, Uppsala University, Sweden.
    Klintberg, Lena
    Division of Microsystems, Dept. of Engineering Sciences, Uppsala University.
    Thornell, Greger
    Ångström Space Technology Centre, Dept. of Engineering Sciences, Uppsala University, Sweden; Division of Microsystems Technology, Dept. of Engineering Sciences, Uppsala University, Sweden.
    Pirani Microgauge Fabricated of High-Temperature Co-fired Ceramics with Integrated Platinum Wires2019Ingår i: Sensors and Actuators A-Physical, ISSN 0924-4247, E-ISSN 1873-3069, Vol. 285, s. 8-16Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    This paper presents the integration and pressure sensor operation of platinum bond wires in High- Temperature Co-fired alumina (HTCC). Devices were fabricated with a 50 μm diameter wire suspended across a 500 μm wide cavity in green-body state HTCC, electrically connected to screen printed alumina conductors. The substrate shrinkage during sintering to a cavity width of 400 μm causes the wire element to elevate from the cavity ́s bottom surface. Resulting devices were compared with reference devices, containing screen-printed sensor elements, as Pirani gauges operated at 100 °C in constant-resistance mode, and in dynamic mode with a feeding current of 1 A in a pressure range from 10-4 Torr to atmospheric pressure. Also, devices with wire lengths between 500 and 3500 μm were operated and studied in constant-resistance and dynamic mode. Lastly, a device is demonstrated in operation at a mean temperature of 830 °C. The results include wire elements with a consistent elevation from their substrate surfaces, with irregularities along the wires. The wire devices exhibit a faster pressure response in dynamic mode than the reference devices do but operate similarly in constant-resistance mode. Increasing the wire element length shows an increasing dynamic pressure range but a decreasing maximum sensitivity. The sensitivity is retained in high temperature mode, but the dynamic range is extended from about 10 Torr to about 700 Torr.

  • 59.
    Sturesson, Peter
    et al.
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS).
    Seton, Ragnar
    Uppsala Universitet.
    Klintberg, Lena
    Uppsala University.
    Thornell, Greger
    Uppsala University.
    Persson, Anders
    Uppsala Universitet.
    Effect of Resistive and Plasma Heating on the Specific Impulse of a Ceramic Cold Gas Thruster2019Ingår i: Journal of microelectromechanical systems, ISSN 1057-7157, E-ISSN 1941-0158, Vol. 28, nr 2, s. 235-244Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    Research and development of small satellites has continued to expand over the last decades. However, propulsion systems with adequate performance have persisted to be a great challenge. In this paper, the effects of three different heaters on the specific impulse and overall thrust efficiency of a cold gas microthruster are presented. They consisted of a conventional, printed resistive thick-film element, a freely suspended wire, and a stripline split-ring resonator microplasma source and were integrated in a single device made from high-temperature co-fired ceramics (HTCC). The devices were evaluated in two setups, where the first measured thrust and the other shock cell geometry. In addition, the resistive elements were evaluated as gas temperature sensors. The microplasma source was found to provide the greatest improvement in both specific impulse and thrust efficiency, increasing the former from an un- heated level of 44 s to 55 s when heating with a power of 1.1 W. This corresponded to a thrust efficiency of 53 %. This could be compared to the results from the wire and printed heaters which were 50 s and 18 %, and 45 s and 14 %, respectively. The combined results also showed that imaging the shock cells of a plasma heated thruster was a simple and effective way to determine its performance compared to the traditional thrust balance method.

  • 60.
    Sturesson, Peter
    et al.
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS). Uppsala Univ, Dept Engn Sci, Angstrom Space Technol Ctr, Sweden; Uppsala Univ, Dept Engn Sci, Div Microsyst Technol, Sweden.
    Zahra, Khaji
    Uppsala Univ, Dept Engn Sci, Div Microsyst Technol, Sweden.
    Lena, Klintberg
    Uppsala Univ, Dept Engn Sci, Div Microsyst Technol, Sweden.
    Greger, Thornell
    Uppsala Univ, Dept Engn Sci, Angstrom Space Technol Ctr, Sweden; Uppsala Univ, Dept Engn Sci, Div Microsyst Technol, Sweden.
    Ceramic Pressure Sensor for High Temperatures: Investigation of the Effect of Metallization on Read Range2017Ingår i: IEEE Sensors Journal, ISSN 1530-437X, E-ISSN 1558-1748, Vol. 17, nr 8, s. 2411-2421Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    A first realization of membranes by draping a graphite insert with ceramic green body sheets, and a study on the relationship between circuit metallization, made by double- layer screen-printing of platinum and electroplating of silver on top of platinum, and the practical read range of ceramic LC resonators for high-temperature pressure measurements, are presented. As a quality factor reference, two-port microstrip meander devices were positively evaluated. To study interdiffusion between silver and platinum, test samples were annealed at 500, 700, and 900 °C for 4, 36, 72, and 96 hours. The LC resonators were fabricated with both metallization methods, and the practical read range at room temperature was evaluated. Pressure sensitive membranes were characterized for pressures up to 2.5 bar at room temperature, 500 and up to 900°C. Samples electroplated with silver exhibited performance equal to or better than double-layer platinum samples for up to 60 hours at 500°C, 20 hours at 700°C, and for 1 hour at 900°C, which was correlated with the degree of interdiffusion as determined from cross- sectional analysis. The LC resonator samples with double-layer platinum exhibited a read range of 61 mm, and the samples with platinum and silver exhibited a read range of 59 mm. The lowest sheet resistance, and, thereby, the highest read range of 86 mm, was obtained with a silver electroplated LC resonator sample after 36 hours of annealing at 500°C. 

  • 61.
    Thielen, Alexander
    et al.
    Försvarshögskolan, Institutionen för säkerhet, strategi och ledarskap (ISSL), Ledarskapscentrum.
    Sivertun, Åke
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS).
    Hyllengren, Peder
    Försvarshögskolan, Institutionen för säkerhet, strategi och ledarskap (ISSL), Ledarskapscentrum.
    Alvinius, Aida
    Försvarshögskolan, Institutionen för säkerhet, strategi och ledarskap (ISSL), Ledarskapscentrum.
    Frames of the terrorist attack in Sweden: a qualitative study of true and fake news coverage2019Ingår i: International Journal of Emergency Management, ISSN 1471-4825, E-ISSN 1741-5071, Vol. 15, nr 3, s. 205-220Artikel i tidskrift (Refereegranskat)
    Abstract [en]

    On 7 April 2017, a terrorist attack occurred in central Stockholm. A hijacked lorry was intentionally driven into crowds along a pedestrian street. The purpose of this study was to qualitatively explore how the media framed this terrorist attack. The data collection approach was inductive and explorative, mainly involving searching electronic media databases. The qualitative analysis of 1294 articles resulted in four overarching themes describing how the terrorist attack was framed in the media. These frames are as follows: the incident, framed as confirmed, unconfirmed and denied information; the perception of leadership and authorities as trustworthy; the site perceived as a place of sorrow; and crisis management framed as the initial and sequential framing of the professionals, the heroes and the villains. The primary conclusion is that true as well as fake news affects crisis management and public opinion, which may create challenges for the entire society within the crisis management area. 

  • 62.
    Vatsel, Soames
    et al.
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS).
    Laestadius, Nils
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS).
    Martinsson, Lars
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS).
    Lindh, Jens
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska tillämpningar (MteT).
    Lärobok i militärteknik - exempelsamling: Problem och övningsbok med ledningar2018Bok (Övrigt vetenskapligt)
  • 63.
    Vatsel, Soames
    et al.
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS).
    Laestadius, Nils
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS).
    Martinsson, Lars
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska system (MteS).
    Lindh, Jens
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Sektionen för militärtekniska tillämpningar (MteT).
    Lärobok i militärteknik - exempelsamling: problem- och övningsbok med ledningar,  Version 2.02019Bok (Övrig (populärvetenskap, debatt, mm))
    Abstract [en]

    Course material with examples for basic course in military technology.

  • 64.
    Zweibelson, Ben
    et al.
    U S Special Operations Command’s Joint Special Operations University.
    Hedstöm, Lars
    Försvarshögskolan, Institutionen för säkerhet, strategi och ledarskap (ISSL), ISSL Ledning.
    Lindström, Magnus
    Swedish Armed Forces.
    Pettersson, Ulrica
    Försvarshögskolan, Militärvetenskapliga institutionen (MVI), Avdelningen för ledningsvetenskap och militärteknik (ALM), Ledningssektionen (Ledn). U S Special Operations Command’s Joint Special Operations University.
    The Emergent Art of Military Design: Swedish Armed Forces and the Contemporary Security Environment2017Ingår i: Kungl Krigsvetenskapsakademiens Handlingar och Tidskrift, ISSN 0023-5369, nr 3, s. 83-97Artikel i tidskrift (Övrigt vetenskapligt)
    Abstract [sv]

    Artikeln beskriver ’Military’ Design Thinking från det perspektiv som lärs ut vid USSpecial Operations Command’s Joint Special Operations University (USSOCOM JSOU). Ambitionen är att besvara följande frågor: Vad är Design Thinking och vad är ursprunget till metodiken? Varför är Design Thinking aktuellt idag, och hur kan beslutsfattare nyttja metoden för att påverka komplexa problem? Vidare ger författarna förslag på hur Design Thinking kan nyttjas i ett svenskt sammanhang för att påverka de komplexa säkerhetsutmaningar som Sverige står inför. Sammanfattningsvis beskrivs Design Thinking dels som ett förhållningssätt, men också som en metodik vilken ökar en militär beslutsfattares möjlighet att förstå sig på (appreciate) komplexa problem. Denna fördjupade förståelse ligger sedan till grund för chefens inriktning av verksamhet. Design Thinking ersätter inte dagens metoder men möjliggör att "rätt" problem identifieras och löses.

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