Liliana Pérez scite author profile

In recent years, few ideas have captured the imagination of health-care practitioners as much as the advent of "big data" and the advanced analytical methods and technologies used to interpret it-it is a trend seen as having the potential to revolutionize biology, medicine, and health care.(1,2,3) As new types of data and tools become available, a unique opportunity is emerging for smarter and more effective discovery, development, and commercialization of innovative biopharmaceutical drugs.

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Predicting Climate Change Impacts to the Canadian Boreal Forest

Nelson

Coops

Wulder

et al. 2014

Diversity

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Climate change is expected to alter temperature, precipitation, and seasonality with potentially acute impacts on Canada's boreal. In this research we predicted future spatial distributions of biodiversity in Canada's boreal for 2020, 2050, and 2080 using indirect indicators derived from remote sensing and based on vegetation productivity. Vegetation productivity indices, representing annual amounts and variability of greenness, have been shown to relate to tree and wildlife richness in Canada's boreal. Relationships between historical satellite-derived productivity and climate data were applied to modelled scenarios of future climate to predict and map potential future vegetation productivity for 592 regions across Canada. Results indicated that the pattern of vegetation productivity will become more homogenous, particularly west of Hudson Bay. We expect climate change to impact biodiversity along north/south gradients and by 2080 vegetation distributions will be dominated by processes of seasonality in the north and a combination of cumulative greenness and minimum cover in the south. The Hudson Plains, which host the world's largest and most contiguous wetland, are predicted to experience less seasonality OPEN ACCESS Diversity 2014, 6 134 and more greenness. The spatial distribution of predicted trends in vegetation productivity was emphasized over absolute values, in order to support regional biodiversity assessments and conservation planning.

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An Agent-Based Model to Identify Migration Pathways of Refugees: The Case of Syria

Hébert

Pérez

Harati

2017

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A geospatial agent-based model of the spatial urban dynamics of immigrant population: A study of the island of Montreal, Canada

2019

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Residential segregation into spatial neighborhoods and boroughs is a well-known spatial dynamic process that characterise complex urban environments. Existing models of segregation, including the pioneering Schelling ones, often do not consider all the factors that can contribute to this process. Segregation as well as aggregation emerges from local interactions among individuals, and is rooted in the complexity of social, economic and environmental interactions. The main objective of this study is to develop and implement a geospatial agent-based model to simulate the decision-making process of location of new household for incoming immigrant populations. Particularly this study aims to simulate and analyse the dynamics of the new immigrant populations arriving in the bilingual cities and boroughs of the island of Montreal. The model was implemented in NetLogo software, using real geospatial datasets. The obtained simulation results indicate realistic spatial patterns of spatial composition of the ethnographic fabric on the island of Montreal. The proposed model has the potential to be used as part of the city planning purposes.

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Liliana Pérez

An agent-based approach for modeling dynamics of contagious disease spread

The Role of Big Data and Advanced Analytics in Drug Discovery, Development, and Commercialization

Predicting Climate Change Impacts to the Canadian Boreal Forest

An Agent-Based Model to Identify Migration Pathways of Refugees: The Case of Syria

A geospatial agent-based model of the spatial urban dynamics of immigrant population: A study of the island of Montreal, Canada

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