Calls for greater diversity, especially in relation to the appointment of arbitrators, have been prevalent for some time in the international arbitration community, followed by several initiatives being set up to address the issue. While the primary focus of the diversity debate has been on gender, there have also been calls to expand and diversify the profile of the arbitrator pool to include more non-Western and non-White arbitrators. For several years, scholars and practitioners have argued for countless benefits of increased racial diversity, such as an increased acceptability and legitimacy of the arbitration process. There is a consensus that in a deliberative process like ADR, practitioners should reflect their claimants’ demographics. The existence of diverse panels helps further the aims of meticulous and accurate fact-finding approaches. Similarly, they argue that the lack of racial diversity may directly and negatively affect the quality of arbitration awards. This blog post will focus on the lack of diversity of African arbitrators appointed to resolve international arbitration proceedings, as well as initiatives that are being set up to address such issues. The focus on African ethnicity is given for two reasons: 1) African countries are no strangers to arbitration. Nearly 100 arbitral institutions exist across Africa. 2) There has been an increase of arbitration proceedings emanating from African regions, while there has been a minimal growth in the ethnic diversity of arbitrators appointed to resolve these disputes. This article was originally published on https://commercialarbitrationineurope.wordpress.com/2021/06/29/diversity-in-arbitration-the-lack-of-racial-diversity-in-international-arbitral-tribunals/
MULTIFILE
Amsterdam is known to be a cosmopolitan and multicultural city with multiple economic opportunities. Such context provides suitable legal, political and economic conditions where newly arrived migrants are introducing their business ideas. Migrant entrepreneurs are interacting with the economic ecosystem of Amsterdam using their entrepreneurial ideas, and this paper examines the diversity in their networks of business contacts involved in their business idea. While earlier studies have shown the benefits for entrepreneurs when using contacts to reach resources, advice and support; the situation for migrant entrepreneurs can help us understand better various aspects of network diversity. The starting idea is that migratory processes (partially) break business connections created before migration, for example with classmates or former colleagues. But, partly thanks to digital communication, some of those networks are being kept and used as support in the country of destination. I describe the way that migrant entrepreneurs combine different people for business purposes, and based on this analysis I show the various facets of network diversity that play a distinct role to support the business of migrant entrepreneurs in Amsterdam’s urban ecosystem.Networks of contacts who are created as part of the migratory experiences contribute largely to the choice of the sector and the product. Contacts with strong relationships help migrant entrepreneurs to find their way in a new location (Fullin and Reyneri, 2011; Ambrosini, 2013; Toruńczyk-Ruiz, 2014). These contacts provide the (business) support that migrant have (partially) lost due to migrating; and they also provide information and resources used in the implementation of the business due to geographic proximity (Nathan, 2015; Solano, 2015).
MULTIFILE
Abstract Healthcare organizations operate within a network of governments, insurers, inspection services and other healthcare organizations to provide clients with the best possible care. The parties involved must collaborate and are accountable to each other for the care provided. This has led to a diversity of administrative processes that are supported by a multi-system landscape, resulting in administrative burdens among healthcare professionals. Management methods, such as Enterprise Architecture (EA), should help to develop and manage such landscapes, but they are systematic, while the network of healthcare parties is dynamic. The aim of this research is therefore to develop an EA framework that fits the dynamics of network organizations (such as long-term healthcare). This research proposal outlines the practical and scientific relevance of this research and the proposed method. The current status and next steps are also described.
DOCUMENT
Former military fortifications are often repurposed for tourism and recreation. While some of over 100 Dutch forts are recognized as UNESCO World Heritage sites, a substantial number are currently underdeveloped, putting their cultural and natural heritage at risk. Developing these forts in a conscious and collaborative way promises to not only preserve their heritage value, but also facilitate enjoyable and healthy experiences for visitors. Moreover, under-developed forts provide an opportunity to solve another pressing challenge, namely overtourism. Visitor pressure at tourist attractions has led the Netherlands Board of Tourism and Conventions to call for spreading visitors to lesser-known areas. Less-developed forts are among the most promising of these. Development initiatives depend on a transition from isolation to cooperation across sites. However, for cooperation to be effective, agencies managing these forts have indicated an urgent need for data on visitor characteristics and experiences. The purpose of the present project is to measure and analyze visitor demographics, motivations, and experiences at less-developed forts, and to develop a toolkit to inspire, support, and monitor development of these forts for natural and cultural heritage preservation and improved visitor experience. This proposal builds on the previous project, “Experiencing Nature” which utilized Breda Experience Lab technologies to measure visitor experiences at Fort de Roovere. We now aim to broaden this proven approach to a broader variety of forts, and to translate visitor data into actionable advice. The consortium includes a changemaking network of the Alliantie Zuiderwaterlinie (NL), Regionale Landschappen (VL), and Agentschap Natuur en Bos (VL). This Dutch-Flemish network aims to connect formerly isolated forts to one another, and represents a broad diversity of fortified sites, each with unique challenges. The project will thus facilitate interregional collaboration, especially toward coming Interreg EU proposals, and inform interregional marketing campaigns and planning for management and conservation.
As climate change accelerates, rising sea levels pose challenges for low-lying nations like the Netherlands. Floating developments (such as homes, solar parks, and pavilions) are considered the most climate adaptative solution for the future, but the effects on the environment are unknown which is holding back this floating transformation. Since public and private partners are not able to answer questions on the effect of floating urbanisation on the environment and water quality based on speculations by models without field data, permits are given only after proof that ecological & water quality will not affected (also EU warnings ‘deteriorating’ water quality (UvW 2025, EU 2025). This proposal aims to develop an innovative autonomous docking station for aquatic drones, enhancing environmental monitoring of floating structures. Only a few monitoring campaigns measured the impact of small floating structures (small structures and only basic parameters). Traditional monitoring methods rely on manual sampling and static sensors, which are costly, labour-intensive, and provide delayed results. A new study, led by Hanze with Gemeente Rotterdam, Waternet (Gemeente Amsterdam) and Indymo, will assess the impact of new large-scale floating developments with a new method. Autonomous aquatic drones improve data resolution but face operational challenges such as battery life and data retrieval. An innovating docking station will address these issues by enabling drones to recharge, offload data, and perform continuous missions without human intervention. Advanced tools—including aquatic drones, 360-degree cameras, sonar imaging, and real-time sensors—will collect high-resolution environmental data also monitoring biodiversity and bathymetry. The proposed docking station will support real-time sensor networks, allowing for spatial and temporal data collection. It will improve the (cost) efficiency and quality of long-term environmental monitoring, providing insights into water quality dynamics and underwater ecosystems in Rotterdam and Amsterdam as an international example of floating development in the battle of climate change.
Human kind has a major impact on the state of life on Earth, mainly caused by habitat destruction, fragmentation and pollution related to agricultural land use and industrialization. Biodiversity is dominated by insects (~50%). Insects are vital for ecosystems through ecosystem engineering and controlling properties, such as soil formation and nutrient cycling, pollination, and in food webs as prey or controlling predator or parasite. Reducing insect diversity reduces resilience of ecosystems and increases risks of non-performance in soil fertility, pollination and pest suppression. Insects are under threat. Worldwide 41 % of insect species are in decline, 33% species threatened with extinction, and a co-occurring insect biomass loss of 2.5% per year. In Germany, insect biomass in natural areas surrounded by agriculture was reduced by 76% in 27 years. Nature inclusive agriculture and agri-environmental schemes aim to mitigate these kinds of effects. Protection measures need success indicators. Insects are excellent for biodiversity assessments, even with small landscape adaptations. Measuring insect biodiversity however is not easy. We aim to use new automated recognition techniques by machine learning with neural networks, to produce algorithms for fast and insightful insect diversity indexes. Biodiversity can be measured by indicative species (groups). We use three groups: 1) Carabid beetles (are top predators); 2) Moths (relation with host plants); 3) Flying insects (multiple functions in ecosystems, e.g. parasitism). The project wants to design user-friendly farmer/citizen science biodiversity measurements with machine learning, and use these in comparative research in 3 real life cases as proof of concept: 1) effects of agriculture on insects in hedgerows, 2) effects of different commercial crop production systems on insects, 3) effects of flower richness in crops and grassland on insects, all measured with natural reference situations
Lectoraat, onderdeel van NHL Stenden Hogeschool
