Purpose – This paper aims to introduce the special issue on CSR communication attached to the First International CSR Communication Conference held in Amsterdam in October 2011. The aim of the introduction is also to review CSR communication papers published in scholarly journals in order to make a summary of the state of CSR communication knowledge. Design/methodology/approach – The existing literature on CSR communication was approached via systematic review. with a combination of conventional and summative qualitative content analysis. The final dataset contained 90 papers from two main business and management databases, i.e. EBSCOhost and ProQuest.Findings – Papers were coded into three main categories. The results show that the majority of the papers are concerned with disclosure themes. Considerably less salient are papers that fall under process-oriented themes and the outcomes/consequences of CSR communications. The most important outlets for CSR communication-related topics are Journal of Business Ethics and Corporate Communications: An International Journal.Originality/value – This paper represents the first attempt to perform a systematic and comprehensive overview of CSR communication papers in scholarly journals. Its value is in making this rather vast and heterogeneous literature more visible and accessible to all CSR communication scholars.Keywords - CSR communication, Scholarly journals, Systematic review, Content analysis, Special issue, Journals, Social responsibilityPaper type - Research paper
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Competitive and working papers as well as abstracts in these proceedings discuss recent academic insights and link academic research to the practice field in order to exchange knowledge on contexts and effects, potentials and challenges of CSR and communication, on best practices and newest developments. They give a variety of insights on CSR and communication from academia (communication, management, marketing science etc.) and the practice field (corporations, consultancies, associations).
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The paper analyses key elements of communication that may lead to accusations that a company is engaging in practices of greenwashing failing to create stakeholder engagement. According to sensemaking and sensegiving approaches, the theoretical foundations that underpin the concepts of corporate social responsibility (CSR) communication and greenwashing practices are explored and a comparison between two energy companies in the Italian and Dutch context is set up for exploratory purpose. The integration of a company’s strategic CSR approach and its communication practices may help to enhance effective stakeholder engagement, prevent accusations of greenwashing and avert the negative associated consequences (e.g., scepticism among stakeholders). The research provides a theoretical contribution to CSR communication by identifying several pitfalls that can lead to the appearance of greenwashing and provides caveats for the further development of both theory and managerial practices.
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The integration of renewable energy resources, controllable devices and energy storage into electricity distribution grids requires Decentralized Energy Management to ensure a stable distribution process. This demands the full integration of information and communication technology into the control of distribution grids. Supervisory Control and Data Acquisition (SCADA) is used to communicate measurements and commands between individual components and the control server. In the future this control is especially needed at medium voltage and probably also at the low voltage. This leads to an increased connectivity and thereby makes the system more vulnerable to cyber-attacks. According to the research agenda NCSRA III, the energy domain is becoming a prime target for cyber-attacks, e.g., abusing control protocol vulnerabilities. Detection of such attacks in SCADA networks is challenging when only relying on existing network Intrusion Detection Systems (IDSs). Although these systems were designed specifically for SCADA, they do not necessarily detect malicious control commands sent in legitimate format. However, analyzing each command in the context of the physical system has the potential to reveal certain inconsistencies. We propose to use dedicated intrusion detection mechanisms, which are fundamentally different from existing techniques used in the Internet. Up to now distribution grids are monitored and controlled centrally, whereby measurements are taken at field stations and send to the control room, which then issues commands back to actuators. In future smart grids, communication with and remote control of field stations is required. Attackers, who gain access to the corresponding communication links to substations can intercept and even exchange commands, which would not be detected by central security mechanisms. We argue that centralized SCADA systems should be enhanced by a distributed intrusion-detection approach to meet the new security challenges. Recently, as a first step a process-aware monitoring approach has been proposed as an additional layer that can be applied directly at Remote Terminal Units (RTUs). However, this allows purely local consistency checks. Instead, we propose a distributed and integrated approach for process-aware monitoring, which includes knowledge about the grid topology and measurements from neighboring RTUs to detect malicious incoming commands. The proposed approach requires a near real-time model of the relevant physical process, direct and secure communication between adjacent RTUs, and synchronized sensor measurements in trustable real-time, labeled with accurate global time-stamps. We investigate, to which extend the grid topology can be integrated into the IDS, while maintaining near real-time performance. Based on topology information and efficient solving of power flow equation we aim to detect e.g. non-consistent voltage drops or the occurrence of over/under-voltage and -current. By this, centrally requested switching commands and transformer tap change commands can be checked on consistency and safety based on the current state of the physical system. The developed concepts are not only relevant to increase the security of the distribution grids but are also crucial to deal with future developments like e.g. the safe integration of microgrids in the distribution networks or the operation of decentralized heat or biogas networks.
