Your search keyword '"Spacetime"' showing total 13 results

1. Interpretable machine learning for analysing heterogeneous drivers of geographic events in space-time.

Author

Masrur, Arif, Yu, Manzhu, Mitra, Prasenjit, Peuquet, Donna, and Taylor, Alan

Subjects

*MACHINE learning, *SPACETIME, *RANDOM forest algorithms, *DATA science

Abstract

Machine learning (ML) interpretability has become increasingly crucial for identifying accurate and relevant structural relationships between spatial events and factors that explain them. Methodologically aspatial ML algorithms with an apparent high predictive power ignore non-stationary domain relationships in spatio-temporal data (e.g. dependence, heterogeneity), leading to incorrect interpretations and poor management decisions. This study addresses this critical methodological issue of 'interpretability' in ML-based modeling of structural relationships using the example of heterogeneous drivers of wildfires across the United States. Specifically, we present and evaluate a spatio-temporally interpretable random forest (iST-RF) that uses spatio-temporal sampling-based training and weighted prediction. Although the ultimate scientific objective is to derive interpretation in space-time, experiments show that iST-RF can improve predictive accuracy (76%) compared to the aspatial RF approach (70%) while enhancing interpretations of the trained model's spatio-temporal relevance for its ensemble prediction. This novel approach can help balance prediction and interpretation with fidelity in a spatial data science life cycle. However, challenges exist for predictive modeling when the dataset is very small because in such cases locally optimized sub-model's prediction performance can be suboptimal. With that caveat, our proposed approach is an ideal choice for identifying drivers of spatio-temporal events at country- or regional-scale studies. [ABSTRACT FROM AUTHOR]

Published

2022

2. Spatial-temporal modeling of initial COVID-19 diffusion: The cases of the Chinese Mainland and Conterminous United States.

Author

Griffith, Daniel and Li, Bin

Subjects

COVID-19 pandemic, COVID-19, EIGENVECTORS, SPACETIME, STRUCTURAL components

Abstract

COVID-19 outbreaks in China in late December 2019, then in the United States (US) in early 2020. In the initial wave of diffusion, the virus respectively took 14 and 33 days to spread across the provinces/states in the Chinese mainland and the coterminous US, during which there are 43% and 70% zero entries in the space-time series for China and US respectively, indicating a zero-inflated count process. A logistic growth curve as a function of the number of days since the first case appeared in each of these countries accurately portrays the national aggregate per capita rates of infection for both. This paper presents two space-time model specifications, one based upon the generalized linear mixed model, and the other upon Moran eigenvector space-time filtering, to describe the spread of COVID-19 in the initial 19 and 58 days across the Chinese mainland and the coterminous US, respectively. Results from these case studies show both models shed new light on the role of spatial structures in COVID-19 diffusion, models that can forecast new cases in subsequent days. A principal finding is that describing the spatio-temporal diffusion of COVID-19 benefits from including a hierarchical structural component to supplement the commonly employed contagion component. [ABSTRACT FROM AUTHOR]

Published

2021

3. An evaluation of wrong-way crashes from highway ramps in Kansas, USA.

Author

Fitzsimmons, Eric J., Cunningham IV, Jack R., Dissanayake, Sunanda, and Liang, Jia

Subjects

*EXPRESS highways, *ROADS, *WEATHER, *GOVERNMENT agencies, *SPACETIME

Abstract

Wrong-way crashes on limited access highways continue to be a serious problem for state highway agencies and communities. These crashes are more likely to result in fatalities or serious injuries than other traffic incidents, due to vehicles travelling at high speeds, often involved on a roadway with limited vertical space and time to avoid a crash. This research study focused on wrong-way crashes that occurred on highways in the State of Kansas. Although these crashes represent a very small portion of crashes, wrong-way crashes were found to have a higher rate of fatalities and injuries as compared to other crash types. Using ten years of crash data, it was found that a typical wrong-way crash occurred under no adverse weather conditions, at a non-intersection location, in daylight or with streetlights present, involved alcohol or drugs, and resulted in a fatality or serious injury. An ordinary logistic model was developed to identify significant characteristics of wrong-way crashes. The model indicated that drivers under the influence of alcohol or drugs was found to be a significant in both fatal and injury wrong-way crashes. It was also found that certain lighting conditions were also significant, along with use of safety equipment and drivers over the age of 55 years old. Additional research is needed to further investigate wrong-way crashes and their causalities in Kansas on other roadway facilities including rural at-grade divided intersections. [ABSTRACT FROM AUTHOR]

Published

2019

4. Network-based likelihood modeling of event occurrences in space and time: a case study of traffic accidents in Dallas, Texas, USA.

Author

Acker, Benjamin and Yuan, May

Subjects

*TRAFFIC accidents, *URBAN transit systems, *PUBLIC transit, *RANDOM forest algorithms, *SPACETIME

Abstract

We propose a novel approach to network-based event likelihood modeling that estimates the probabilities of event occurrences on a network and identifies the influences of site and situation characteristics. Our premise is that the occurrences of events that involve human activities are subject to site and situational characteristics, and an understanding of event occurrences serves the basis for preparation or mitigation. Using data from Dallas, Texas, USA, we take the proposed approach to estimate the likelihood of traffic accidents based on binary (event or nonevent) space-time atoms of 100-m road segments and 1-h intervals. We choose 12 variables representing time, site characteristics, and situational conditions based on literature reviews to develop logistic regression and random forest models. The traffic accident data on even days were used for model construction and data on odd days for model testing. Both models result in comparable accuracy at 84.11% (logistic regression) and 85.42% (random forest) with significant differences in the spatial patterns of how site and situation correlate to traffic accidents. The difference signals the dynamic influence of site and situation characteristics on the event likelihood over time. The proposed approach shall be applicable to other point events on a network. [ABSTRACT FROM AUTHOR]

Published

2019

5. Chronotopes of study abroad: the cultural Other, immersion, and compartmentalized space–time.

Author

Doerr, Neriko Musha

Subjects

*CONCENTRATED study, *FOREIGN study, *SPACETIME, *CULTURAL relations, *COLLEGE students

Abstract

Study abroad offers a specific configuration of encountering cultural Others: in a demarcated “abroad” space in a compartmentalized time period. Informed by Bakhtin's notion of chronotopes, this article investigates narratives of American college students who studied in Paris, France and Bilbao, Spain in June–July 2011 based on an ethnographic fieldwork of their stay. I identify two chronotopes held in tension in their narratives that reflect tenets of the discourse of immersion: of homogeneous space where every minute students spend in the host society is “local” time full of learning, which risks portraying the host society as frozen in the time of the students’ stay; and of heterogeneous space where local space–time and outsider (e.g. American students and tourists) space–time co-exist hierarchically, where students strive to show their engagement with the former. This article calls for encouraging students to examine the effects of these chronotopes on their experiences and for viewing study abroad not as an encounter of two cultures but as diverse students joining in the ongoing production of heterogeneous host society space with a compartmentalized yet expanding notion of time. [ABSTRACT FROM PUBLISHER]

Published

2016

6. Sociospatial inequality: combining multilevel and spatial analysis.

Author

Siordia, Carlos

Subjects

*GEOGRAPHICAL research, *SPATIAL analysis (Statistics), *MULTILEVEL models, *MAPS, *SPACETIME, *SOCIAL scientists, *TIME series analysis

Abstract

The idea that statistical relationships can change over time and space has been around for many centuries. Social scientists began investigating how statistical relationships shift over time, with techniques such as time series analysis, long ago and have only recently begun to explore shifts over geographical space. A map of the USA. mainland that makes use of recent population data to regress a geographically weighted regression is presented to show the reader an instance when a statistical relationship varies as a function of geographical space. [ABSTRACT FROM AUTHOR]

Published

2013

7. Teaching Time-Space Compression.

Author

Warf, Barney

Subjects

*SPACETIME, *TRANSPORTATION, *COMMUNICATION, *GLOBALIZATION, *GEOGRAPHY education in universities & colleges, *COLLEGE curriculum

Abstract

Time-space compression shows students that geographies are plastic, mutable and forever changing. This paper justifies the need to teach this topic, which is rarely found in undergraduate course syllabi. It addresses the impacts of transportation and communications technologies to explicate its dynamics. In summarizing various conceptual perspectives, the paper illustrates the diverse ways in which it has been theorized. The links between time-space compression and globalization are explored. The paper points to four common pitfalls that plague attempts to teach this issue. It offers five classroom examples through which time-space compression can be taught. [ABSTRACT FROM AUTHOR]

Published

2011

8. Apply concepts of fluid kinematics to represent continuous space-time fields in temporal GIS.

Author

Bothwell, James and Yuan, May

Subjects

*SPACETIME, *GEOGRAPHIC information systems, *KINEMATICS, *BIOLOGICAL divergence, *WEATHER forecasting, *GENERAL circulation model, *OCEAN-atmosphere interaction

Abstract

Central to temporal Geographical Information systems (GIS) research is representation and analysis of temporality in spatial databases. Temporality can be characterized by change, motion, and periodicity, but to date, most temporal GIS research advances contribute to representing and analyzing spatially discrete constructs of amandant vectors, geospatial lifelines, space-time trajectories, events and network flows, none of which accounts for geographic phenomena that are continuously dispersing or propagating in space and time. This article introduces a temporal GIS framework that adopts concepts of fluid kinematics and uses velocity as the basic unit of spatiotemporal representation to identify kinematic flows and features indicative of geographic processes, such as divergence and convergence. Climate projections of IPCC A2 scenario are used to test the proposed kinematic representation by comparing data outputs from two popular General Circulation Models (GCMs): the Center National Weather Research global ocean-atmosphere-coupled system (CNRM-CM3) in France and the National Center for Atmospheric Research Community Climate System Model (NCAR-CCSM3) in the United States. The case study shows that fluid kinematics approach offers an alternative means to time-stamped, change-based or event-based representations of geographic phenomena and provides a new foundation for GIS analysis of space-time fields. Specifically, the proposed GIS framework enables direct manipulation of velocity to reveal flows. The case study identifies distinct regions of rapid isotherm movement. By comparison, both GCMs identify similar regions of convergence and divergence except for the following: a high-latitude region in southern Greenland, a band of regions at -15° latitude extending from the middle of South America to east of Madagascar, a region over the Arabian Sea, a region over Indonesia, and several regions in the tropical oceans. [ABSTRACT FROM AUTHOR]

Published

2010

9. Space, Time, Memory: Gendered Recollections of Wartime Los Alamos.

Author

Jack, Jordynn

Subjects

RHETORIC & society, COLLECTIVE memory, SPACETIME, UNITED States history, 1933-1945

Abstract

In this article, I examine configurations of space and time in memory texts written by men and women who lived at Los Alamos, New Mexico, during World War II. These accounts each use somewhat different parameters to frame their recollections, drawing attention to the gendered hierarchy of space-times involved in the work of the Manhattan Project. Despite their heterogeneous authors and motivations, however, these frameworks circumscribe memories within a narrow time and space - the physical boundaries of the Los Alamos site and the frantic tempo of wartime work. In this way, they construct a collective memory of Los Alamos that overlooks the broader spaces and times within which the development of the atomic bomb was situated. Far from being neutral, like dates on a calendar or coordinates on a map, space and time function ideologically to shape memories in ways that support the ideological interests of scientists. [ABSTRACT FROM AUTHOR]

Published

2007

10. The Function of Ice-gliders and Their Distribution in Time and Space Across the Northern Plains and Parklands.

Author

Nicholson, B.A., Meyer, David, Nicholson, Sylvia, and Hamilton, Scott

Subjects

*ANTIQUITIES, *SPACETIME

Abstract

Based upon early ethnographic accounts, the ice-glider was a recreational artifact, with limited distribution in time and space, first appearing in the early historic period and confined to the Missouri River drainage. Recent research has shown a more broad distribution across both time and space, extending its use into the precontact period and extending its distribution northward into the Northern Plains and the adjacent Parklands of Canada. Its earliest dated occurrence is in the parklands of southern Manitoba and the southern plains of Saskatchewan circa 1440 A.D. Ice-gliders provide a glimpse of non-subsistence activities of First Nations people prior to the advent of Europeans in the region. They also provide a useful indicator of site seasonality. Elaborate decoration on some specimens suggests to the authors that the ice-glider may have had non-secular applications as well. [ABSTRACT FROM AUTHOR]

Published

2003

11. Fight Club and the World Trade Center: On Metaphor, Scale, and the Spatio-temporal (Dis)location of Violence.

Author

Palladino, P. and Young, T.

Subjects

*TERRORISM, *SPACETIME, *METAPHOR

Abstract

In this essay we examine the metaphorical rendition of the terrorist attacks on New York and Washington, which took place on 11 September 2001, as attacks on "civilization." Our principal aim is to understand how it has proven to be as affective as it seems to have been thus far. We do so by turning to film, a medium that is quintessentially metaphorical and whose own affective power rests on the reconfiguration of time and space. More specifically, we do so by turning to David Fincher's Fight Club (1999). In contrast to the textual approach offered by Slavoj Žižek (2002), we explore how the formal play of different temporal and spatial scales, which would articulate a trenchant critique of alienation, in fact reproduces an understanding of the subject that is deeply complicit with capital. The play of time and space, on which the affective power of the film rests, articulates a rejection of the fundamentally schizophrenic nature of the subject of capital. Our claim is that this exploration of time, space, and political critique illuminates how the elisions of the historical and geo-political that characterize the metaphorical rendition of the attacks on New York and Washington might easily be overlooked. This essay also advances our more general understanding of both the articulation of time and space within the dominant form of metaphorical representation and how this enacts and consolidates a particular politics. [ABSTRACT FROM AUTHOR]

Published

2003

12. Space/time and the tapestry of silence: the quantum theater of Robert Wilson.

Author

DIETRICH, DAWN

Subjects

DRAMATIC structure, THEATRICAL producers & directors, RELATIVITY (Physics), SPACETIME, METAPHOR

Abstract

The article discusses the spatial and temporal properties of U.S. avant-garde stage director and playwright Robert Wilson. A physical means of organization and patterning which constitutes Wilson's theater as an artistic/aesthetic translation of contemporary intellectual thought is suggested. The theory of relativity of German-born theoretical physicist Albert Einstein is explored in relation to Wilson's manipulation of time through spatial metaphors. Other relativistic techniques explored by Wilson are also examined.

Published

1992

13. Time and Space as Constraints in Planning.

Author

Kolaja, Jiri

Subjects

PLANNING, SPACETIME, WORK, DIVISION of labor, SOCIAL role, MATHEMATICAL combinations, PERIODICALS

Abstract

The article focuses on the increased interest of planning in the U.S. According to the article, Americans publish only one periodical whose title includes the term of plan, however, there is growth of interest in it. It is stated that the examination of pattern variables which were developed by T. Parsons depicts that they cannot be used well. As a result, the authors suggested the use of space and time wherein combinations of time and space and planning are explored. It is also stated that there are two times and two spaces such as planned time and planned space, and work time and work space. Furthermore, division of labor must be planned in the future in which directionality and specifity are present. Thus, it makes out of planning a modern role.

Published

1970