Parents who grew up without digital monitoring have a plethora of parental monitoring opportunities at their disposal. While they can engage in surveillance practices to safeguard their children, they also have to balance freedom against control. This research is based on in-depth interviews with eleven early adolescents and eleven parents to investigate everyday negotiations of parental monitoring. Parental monitoring is presented as a form of lateral surveillance because it entails parents engaging in surveillance practices to monitor their children. The results indicate that some parents are motivated to use digital monitoring tools to safeguard and guide their children, while others refrain from surveillance practices to prioritise freedom and trust. The most common forms of surveillance are location tracking and the monitoring of digital behaviour and screen time. Moreover, we provide unique insights into the use of student tracking systems as an impactful form of control. Early adolescents negotiate these parental monitoring practices, with responses ranging from acceptance to active forms of resistance. Some children also monitor their parents, showcasing a reciprocal form of lateral surveillance. In all families, monitoring practices are negotiated in open conversations that also foster digital resilience. This study shows that the concepts of parental monitoring and lateral surveillance fall short in grasping the reciprocal character of monitoring and the power dynamics in parent-child relations. We therefore propose that monitoring practices in families can best be understood as family surveillance, providing a novel concept to understand how surveillance is embedded in contemporary media practices among interconnected family members.
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Privacy, copyright, classified documents and state secrets, but also spontaneous network phenomena like flash mobs and hashtag revolutions, reveal one thing – we lost control over the digital world. We experience a digital tailspin, or as Michael Seemann calls it in this essay: a loss of control or Kontrollverlust. Data we never knew existed is finding paths that were not intended and reveals information that we would never have thought of on our own. Traditional institutions and concepts of freedom are threatened by this digital tailspin. But that doesn’t mean we are lost. A new game emerges, where a different set of rules applies. To take part, we need to embrace a new way of thinking and a radical new ethics – we need to search for freedom in completely different places. While the Old Game depended upon top-down hierarchies and a trust in the protective power of state justice systems, the New Game asks you to let go of all these certainties. Strategies to play the game of digital tailspin rely on flexibility, openness, transparency and what is dubbed ‘antifragility’. In Digital Tailspin: Ten Rules for the Internet After Snowden Michael Seemann examines which strategies are most appropriate in the New Game and why.
Constante vernieuwingen op het gebied van digitale technologie in zowel prive- als publieke omgevingen kenmerken de huidige samenlevingen en benadrukken de alsmaar belangrijker wordende rol daarin voor socio-technische systemen. De uitdaging is om voorafgaand, tijdens en na de ontwikkeling van deze systemen de mens en zijn digitale, sociale en fysieke omgeving centraal te blijven stellen. Dit vraagt om een duidelijk inzicht in de behoeften, wensen en eisen van mensen, zodat deze vertaald kunnen worden naar digitale technologie die een positieve bijdrage levert aan gezondheid, welzijn en participatie. Toegepast onderzoek naar het ontwerp- en appropriatieproces van digitale technologie voor maatschappelijk welbevinden is nodig om succesvol gebruik, implementatie, evaluatie en opschaling te bevorderen. Een goede samenwerking en beter begrip van elkaars doelen, motieven en werkwijzen, tussen zowel ontwerpers en gebruikers als tussen onderzoek, onderwijs en het werkveld, zijn hiervoor absolute vereisten. Lector Digital Life dr. Somaya Ben Allouch pleit in haar rede voor meer aandacht voor een mensgerichte ontwerpaanpak van digitale technologie. Het onderzoek van het lectoraat richt zich op innovatieve, digitale technologie op het gebied van mens-systeem interactie, sensoren en hun data en creatieve methodes voor gezondheid, welzijn en participatie. In de rede zal nader worden ingegaan op hoe het onderzoek van het lectoraat Digital Life bijdraagt aan het (inter)nationale netwerk van onderzoek, onderwijs en praktijk op het snijvlak van technologie, gezondheid en welzijn.
Developing and testing several AR and VR concepts for SAMSUNG (Benelux) Samsung and Breda University of Applied Sciences decided to work together on developing and testing several new digital media concepts with a focus on VR and gaming. This collaboration has led to several innovative projects and concepts, among others: the organisation of the first Samsung VR jam in which game and media students developed new concepts for SAMSUNG GEAR in 24 hours, the pre-development of a VR therapy concept (Fear of Love) created by CaptainVR, the Samsung Industry Case in which students developed new concepts for SAMSUNG GEAR (wearables), the IGAD VR game pitch where over 15 VR game concepts were created for SAMSUNG VR GEAR and numerous projects in which VR concepts are developed and created using new SAMSUNG technologies. Currently we are co-developing new digital HRM solutions.
Creating and testing the first Brand Segmentation Model in Augmented Reality using Microsoft Hololens. Sanoma together with SAMR launched an online brand segmentation tool based on large scale research, The brand model uses several brand values divided over three axes. However they cannot be displayed clearly in a 2D model. The space of BSR Quality Planner can be seen as a 3-dimensional meaningful space that is defined by the terms used to typify the brands. The third axis concerns a behaviour-based dimension: from ‘quirky behaviour’ to ‘standardadjusted behaviour’ (respectful, tolerant, solidarity). ‘Virtual/augmented reality’ does make it possible to clearly display (and experience) 3D. The Academy for Digital Entertainment (ADE) of Breda University of Applied Sciences has created the BSR Quality Planner in Virtual Reality – as a hologram. It’s the world’s first segmentation model in AR. Breda University of Applied Sciences (professorship Digital Media Concepts) has deployed hologram technology in order to use and demonstrate the planning tool in 3D. The Microsoft HoloLens can be used to experience the model in 3D while the user still sees the actual surroundings (unlike VR, with AR the space in which the user is active remains visible). The HoloLens is wireless, so the user can easily walk around the hologram. The device is operated using finger gestures, eye movements or voice commands. On a computer screen, other people who are present can watch along with the user. Research showed the added value of the AR model.Partners:Sanoma MediaMarketResponse (SAMR)
In Amsterdam's neighbourhoods, much of the waste that is disposed has the potential of becoming something else by means of recycling or upcycling. Zero Waste lab –which is part of the organization De Gezonde Stad- is a place where inhabitants can bring their own separated waste in exchange for value coins. Now, Zero Waste Lab now wants to take this a step forward and further develop their own project: from recycling to upcycling waste. In this endeavour, HvA will collaborate by researching the possibilities for upcycling a local waste stream by means of digital production pro-cesses, as well as ways of involving the neighbourhood. Because it is of vital importance for the project not only to be technically possible, but also scalable and economically feasible, Zero Waste Lab and HvA have asked for partnership to the company Verdraaid Goed. This partnership and specific case study, presented here as ‘Wood for the neighborhood’ can be summa-rized in four main goals: • (Production) Explore the design and manufacturing possibilities of using digital production to upcycle a local wood waste stream (with an industrial robotic arm) • (Design) Show how explorative research, when carried on from the beginning of the de-sign process, can bring great added value to the development of project concepts. • (Social) Demonstrate that involving stakeholders early in the process of reusing and de-signing with waste materials can shape the future in new directions • (All three) Highlight how this case study is relevant and fits the principles of the circular economy
