9791221501063-27.pdf

Technology development has led to a growing availability of low-cost data ready-to-use, frequently derived from large scale observations (i.e. data from pervasive systems like GPS sensors, or remote sensing data from earth observation technologies). Oftentimes, these data can’t directly answer speci...

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Γλώσσα:	English
Έκδοση:	Firenze University Press, Genova University Press 2023
Διαθέσιμο Online:	https://books.fupress.com/doi/capitoli/979-12-215-0106-3_27

id	oapen-20.500.12657-74899
record_format	dspace
spelling	oapen-20.500.12657-748992023-08-03T17:59:39Z Chapter On the use of auxiliary information in spatial sampling Bocci, Chiara ROCCO, EMILIA Probabilistic survey data Sampling allocation strategies Spatial data bic Book Industry Communication::J Society & social sciences Technology development has led to a growing availability of low-cost data ready-to-use, frequently derived from large scale observations (i.e. data from pervasive systems like GPS sensors, or remote sensing data from earth observation technologies). Oftentimes, these data can’t directly answer specific questions posed by researchers and data users, or even if they can they are subject to measurement errors or self-selection bias. In both cases it is still necessary to rely, at least partially, on ad-hoc probabilistic surveys. On the other hand, the precision and quality of surveys estimates can be improved by using the data derived from these new sources as auxiliary information in the design phase and/or in the estimation phase. We present a sequential sampling strategy, suitable to investigate a spatially-related phenomenon, which exploits the auxiliary information at design level in order to obtain efficient estimates when the relation between the auxiliary and study variables it is not completely known and/or is not univocally defined for the whole population under study. Using this strategy the final sample is obtained after two (or more) steps: (i) in the first step we collect an initial sample of observations on the target variable, which is used also to investigate the relation between the auxiliary and study variables; (ii) then, this relation is exploited to target and tailor the subsequent sampling step; (iii) additional steps can be included by applying the procedure iteratively. The performance of the suggested strategy is investigated through Monte Carlo experiments by considering several scenarios, which differ in the distributions of the auxiliary and study variables and in their relation. 2023-08-03T15:06:07Z 2023-08-03T15:06:07Z 2023 chapter ONIX_20230803_9791221501063_95 2704-5846 9791221501063 https://library.oapen.org/handle/20.500.12657/74899 eng Proceedings e report application/pdf Attribution 4.0 International 9791221501063-27.pdf https://books.fupress.com/doi/capitoli/979-12-215-0106-3_27 Firenze University Press, Genova University Press ASA 2022 Data-Driven Decision Making 10.36253/979-12-215-0106-3.27 10.36253/979-12-215-0106-3.27 9223d3ac-6fd2-44c9-bb99-5b98ca9d2fad 863aa499-dbee-4191-9a14-3b5d5ef9e635 9791221501063 134 6 Florence open access
institution	OAPEN
collection	DSpace
language	English
description	Technology development has led to a growing availability of low-cost data ready-to-use, frequently derived from large scale observations (i.e. data from pervasive systems like GPS sensors, or remote sensing data from earth observation technologies). Oftentimes, these data can’t directly answer specific questions posed by researchers and data users, or even if they can they are subject to measurement errors or self-selection bias. In both cases it is still necessary to rely, at least partially, on ad-hoc probabilistic surveys. On the other hand, the precision and quality of surveys estimates can be improved by using the data derived from these new sources as auxiliary information in the design phase and/or in the estimation phase. We present a sequential sampling strategy, suitable to investigate a spatially-related phenomenon, which exploits the auxiliary information at design level in order to obtain efficient estimates when the relation between the auxiliary and study variables it is not completely known and/or is not univocally defined for the whole population under study. Using this strategy the final sample is obtained after two (or more) steps: (i) in the first step we collect an initial sample of observations on the target variable, which is used also to investigate the relation between the auxiliary and study variables; (ii) then, this relation is exploited to target and tailor the subsequent sampling step; (iii) additional steps can be included by applying the procedure iteratively. The performance of the suggested strategy is investigated through Monte Carlo experiments by considering several scenarios, which differ in the distributions of the auxiliary and study variables and in their relation.
title	9791221501063-27.pdf
spellingShingle	9791221501063-27.pdf
title_short	9791221501063-27.pdf
title_full	9791221501063-27.pdf
title_fullStr	9791221501063-27.pdf
title_full_unstemmed	9791221501063-27.pdf
title_sort	9791221501063-27.pdf
publisher	Firenze University Press, Genova University Press
publishDate	2023
url	https://books.fupress.com/doi/capitoli/979-12-215-0106-3_27
_version_	1799945273597755392

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