While maps have long been inf luential in the dissemination of geopolitical ideas, the critical geopolitical project often frames maps as evidence of the discourse it seeks to displace. As a result, very few maps appear on the pages of the field's most prominent journals. This paper explores this phenomenon and argues that novel approaches to mapping may actually strengthen critical geopolitical scholarship. We argue that scholars can learn much from contemporary approaches in critical cartography to provide geopolitical analysis with new, informative visualizations. We demonstrate this argument with an alternative cartographic representation of Kashmir. This paper makes two key contributions to critical geopolitics: (i) that alternative cartographic representations are well suited to aid in critiques of normative geopolitical ideas and (ii) that the map presented in this paper is but one way to illustrate emerging critical geopolitical scripts. Our hope is that this brief intervention to 'take back the map' will encourage likeminded scholars to (re)consider the merits of maps in articulating geopolitical narratives.
This article explores the cognitive dimensions of spatial pattern identification in people who are blind or low vision using tactile graphics. We contend that spatial pattern identification is critical to the construction of an informative and rich environmental image, and insight into these cognitive skills can inform current practices in tactile map production and accessible cartography. This research investigates individual spatial thinking skills hypothesized to be components of spatial pattern identification. The findings suggest that Cartesian proximity and object differentiation are vital cognitive skills of spatial pattern identification and could potentially be exploited to communicate complex environmental knowledge in tactile reference maps. The relationship between prior map-reading training and test performance indicates a critical need for an increased presence of tactile cartographies and highlights future research opportunities.
Populations in contemporary cities are being measured, analyzed, or represented in less than optimal ways. Conventional methods of measuring density of populations in cities rely on calculating the number of people living within a bounded surface space. This approach fails to account for the multiple floor residential patterns of the contemporary urban landscape and exposes the vertical space problem in population analytics. To create an accurate representation of people in contemporary urban spaces, a move beyond the conventional conception of density is needed. This research aims to find a more appropriate solution to mapping humans in cities by employing a dasymetric method to represent the distribution of people in a city of vertical residential structures. The methodology creates an index to classify the amount of floor space for each person across the extent of the city, a metric called the personal space measure. The personal space measure is juxtaposed with the conventional population density measurements to provide a unique perspective on how population is concentrated across the urban space. The personal space metric demonstrates how improved metrics can be employed to better understand the social and structural landscape of cities. Chicago, with a large population and a high vertical extent, makes an ideal case study to develop a methodology to capture the phenomena of urban living in the 21st century and to explain alternative approaches to accurately and intelligently analyze the contemporary urban space.
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