The effects of clumped log distribution on line intersect sampling

Tansey, Joshua

January 2014

Line intersect sampling (LIS) is a method used for quantifying post-harvest waste. It is often used by forest managers to quantify merchantable volume remaining on the cutover so that compensation may be exacted under stumpage contracts. The theory has been extensively studied and will produce an accurate measure of harvest waste given the basic theoretical assumptions that: all logs are cylindrical, occur horizontally, are randomly orientated and randomly distributed. When these assumptions are violated, the method is not biased, although precision decreases substantially. A computer simulation was completed to determine whether or not the LIS method is appropriate, given a clumped distribution of logs produced by processing at central sites in cutover before using a forwarder to extract to the landing. The software ArcGIS with the application ModelBuilder was used to produce the LIS Model for running LIS assessments. It was determined through simulation that the conventional LIS method is not appropriate given these harvesting methods, as a level of bias was found in sampling determining that the LIS method underestimated true volume. T-tests confirmed the significance of this bias. LIS volume estimates were not precise, with the range of estimates ranging from 0 m3/ha to double the true volume. An increase in sampling length by a third was found to increase precision by only a small amount. Therefore, it was determine that increased sampling is not worthwhile as the costs associated with it do not justify the small increase in precision.

Line Intersect Sampling (LIS)

post-harvest waste

clumped log distribution

Estimation of the quantity of dead wood after windthrow through aereal images in Tuscany, Italy

Kutchartt, Ruedlinger Erico Heinz

January 2017

Tuscany has suffered severe windstorms in the last five years, causing major damages to the forests. Quantifying the damage after these disturbances has been the main concern for authorities. The objective of this study was develop a new, cost effective methodology to estimate dead wood volumes post windthrow through remote sensing and GIS tools, testing a supervised photo-interpretation in combination with LIS and an unsupervised photo-interpretation called NCC through RGB images with 0.2 m GSD. Additionally, field-assessed were obtained as control data. The study area was conducted in the Tuscany region, where 10 areas were selected. The species affected were mostly conifers. The results obtained by the unsupervised were better than supervised, but both methods did not show statistically significant differences. The NCC method showed promising results, but mostly in big areas, where the results showed accurate volumes. On the other side, small areas are not suitable to be under NCC methods yet, due to the low accuracy obtained in the volumes in this study.

Hur arbetar chefer med att förbättra hygienrutiner? : En kvalitativ studiepå ett sjukhus i Stockholm / How do managers work to improve hand hygiene and hygiene procedures? : A qualitative studyat a hospital in Stockholm

Ling - Roos, Monica

January 2014

Bakgrund: Årligen drabbas miljoner patienter världen över av vårdrelaterade infektioner, vilket representerar ett folkhälsoproblem och ett hotmot patientsäkerheten. Enligt WHO måste varje land därför vidta och fokusera på åtgärder som att förbättra hygienrutiner hos vårdpersonalen, för att minska andelen vårdrelaterade infektioner. Syfte: Att få insyn, förståelse och fördjupad kunskap i hur chefer på ett akutsjukhus i Stockholm arbetar för patientsäkerhet genom följsamhet till hand-, kläd-och hygienrutiner. Hur upplevsföljsamhet till hygienrutinerna vara, ses svårigheter, hur ser praxis för ansvar och uppföljning av följsamheten till hygienrutinernaut?Målet är att kunna ge förslag och inspiration till hur följsamhet till hygienrutiner kan optimeras på det sjukhus där studien utförts, även som inspiration till andra vårdgivare. Metod: 41 chefer på olika nivåer intervjuades. Kvalitativ forskningsansats valdes och manifest kvalitativ innehållsanalys användes som analysmetod. Resultat: Chefer upplever att följsamheten till hygienrutiner generellt är god, men kan skilja sig åt mellan yrkeskategorier. Det finns individer med upprepad icke-följsamhet, trots påpekanden.Det arbetas med följsamhet på den egna enheten, medan det är liten koordinering mellan enheterna. Varje chef bestämmer själv hur arbetet skall läggas upp för sin personal, det finns ingen klar sjukhusgemensam strategi. Önskemål uttrycks om att få tid med sin verksamhetschef att diskutera hur enhetens följsamhet ser ut och behov av åtgärder för förbättring samt åtgärd för de med lägre följsamhet. Konklusion: Följsamheten till hygienrutiner skulle sannolikt kunna öka genom att chefer samverkar, samordnaroch haren mer enad strategi och sjukhusövergripande fokusering på hygienrutiner. / Introduction: Every year, millionsof patients world wide contract healthcare-associated infections, which posea public health problem and threaten patient safety. According to the World Health Organization, all countries must reduce the prevalence of healthcare-associated infections by improving hygiene procedures by health professionals. Aim: This thesis aims to increase insight, understanding,and knowledge about how managers at an emergency hospital in Stockholm work to improve patient safety through hygiene procedures, clothing,and hand hygiene routines.This thesis also aims to provide suggestions and inspiration for optimizing adherence to hygiene procedures and possibly inspire other caregivers. Method: Forty-one managers at various levels were interviewed using aqualitative research approach.Manifest qualitative content analysis was used for data analysis. Results: Managers perceived that adherence to hygiene procedures is generally good, but reported that adherence may differ between professions. Despite correction, some ndividuals repeatedly demonstrated non-adherence. Managers worked o increase adherence in their own units, but reported little coordination between units. Because the hospital had no joint strategy, each manager organized work assignments for their own staff. Mid-level managers expressed a desire to discuss their unit’s adherence to hygiene procedures with senior managers.They also voiced the need for improvement in health professionals with low adherence. Conclusion: The evidence presented here suggests that adherence to hygiene procedures would increase if managers interact, coordinate,and have more unifiedstrategies.A hospital-wide focus on hygiene procedures would aid adherence. / <p>ISBN 978-91-86739-66-9</p>

Hospital Managers

Patient Safety

Adherence

Hygiene Procedures

Intersect or Collaboration

Chefer/ledare

patientsäkerhet

följsamhet

hygienrutiner

samverkan

Public health science

Folkhälsovetenskap

Estimation of volume, biomass, and carbon of coarse woody debris in native forests in São Paulo State, Brazil / Estimativa do volume, biomassa e carbono de madeira morta em florestas nativas no Estado de São Paulo, Brasil

Moreira, Andrea Bittencourt

21 July 2017

The objective of this study was to test the line intersect sampling (LIS) methodology using the design-based inference with stratified systematic sampling and two transect shapes: a straight line and a cross shape, both with three different lengths (100, 150, and 200 m) to estimate the number of coarse woody debris (CWD) elements, their volume, biomass and carbon stocks; by decay class; furthermore, we fit and select CWD biomass and carbon models. The study area includes two types of native forest in the State of São Paulo, Brazil: a Seasonal Semi-deciduous Forest (SSF) and a Cerrado sensu-stricto (CSS). Two strata were chosen in each area, and in each stratum ten sampling units were installed according to a systematic sampling protocol. Each sampling unit had one North- South line of 200 m superimposed over the other lengths (100 and 150 m) and three lines (one for each length) in the East-West direction forming the cross shapes, for a total 650 m per sampling unit. All CWD elements with a diameter _ 10 cm that crossed the transect were tallied. For each element, the diameter, length, perpendicular width, decay class, and (when possible) species was recorded. Disc samples were taken from each element, from which cylinder samples were extracted then oven dried to determine density. These cylinders were milled and analyzed to determine carbon content (%). The volume of each element was calculated by taking the difference between cross-sectional area and any hollowed area, then multiplying by the element\'s length. Biomass was calculated by multiplying volume values by density values, and carbon stocks were calculated by multiplying biomass by the carbon percentage factors computed via lab analysis. Total estimators were calculated by area and per hectare for the number of CWD elements, their volume, biomass, and carbon stocks. These estimators were calculated by stratum then combined across the entire sample population. The data from each sampling unit was also used to calculate the wood density and carbon concentration by decay class, as well as to fit linear and nonlinear models. For the SSF area, the most accurate transect design was the 200 m cross shaped; and for the CSS area was selected the 150 m cross shape. Both areas showed lower biomass values (1.3 and 6.7 Mg/ha for the CSS and SSF areas, respectively) than other studies in the Amazon Forest where CWD research has been conducted. In both areas, as the decay class increased (from least to most rotten material), wood density decreased, which follows the same pattern as other literature. Carbon concentration barely changed within decay classes. Using a conversion constant of 50%, similar carbon stock results were obtained. Nonlinear models (using diameter and length as predictor variables) proved an efficient tool for predicting CWD biomass at an element level. As expected, biomass data exhibited heteroscedasticity, which was mitigated by modeling the variance of the residuals with a power function of the combined variable. Adding decay class as an indicator variable also resulted in model improvement. / Este estudo buscou testar a metodologia de amostragem pela linha interceptadora (LIS), usando a inferência baseada no design, com amostragem sistemática estratificada em duas formas de transectos: linha reta e forma de cruz, ambos com três diferentes comprimentos de transectos: 100, 150 e 200 m para estimar o número de elementos, volume, biomassa e estoque de carbono de madeira morta; investigar a densidade da madeira e a concentração de carbono da madeira morta pela classe de decomposição; e, ajustar e selecionar modelos de biomassa e carbono de madeira morta, em dois tipos de floresta nativa no estado de São Paulo, Brasil: uma Floresta Estacional Semidecidual (SSF) e um Cerrado sensu-stricto (CSS). Em cada tipo florestal foram selecionados dois estratos e localidas dez unidades de amostragem em cada. A unidade de amostragem é um transecto Norte-Sul, com 200 m, que sobrepõe os outros comprimentos (100 e 150 m), e três transectos (para cada comprimento) na direção Leste-Oeste, formando a cruz, totalizando 650m. Foram medidos todos os elementos de madeira morta grossa (CWD) que cruzaram o transecto com um diâmetro _10 cm. Foi medido o diâmetro na interseção, o comprimento, a largura perpendicular, o elemento foi classificado de acordo com a classe de decomposição e, quando possível, a espécie foi identificada. De cada elemento foi retirado um disco de amostra na interseção, este foi fotografado para o cálculo da área oca. De cada disco foram extraídos cilindros, secos em estufa para determinação da densidade, estes foram moídos e analisados para determinação do teor de carbono (%). O volume de cada elemento foi calculado pela diferença da área seccional e área oca, multiplicada pelo comprimento; a biomassa foi calculada multiplicando o volume pela densidade; e o estoque de carbono foi calculado multiplicando a biomassa pela concentração de carbono. Os estimadores do total foram calculados por área e por hectare para o número de elementos de CWD, volume, biomassa e estoque de carbono; foram calculados por estrato, e combinados para a população. Os dados dos 650m de cada unidade foram utilizados para calcular as médias da densidade da madeira e concentração de carbono por classe de decomposição e, para construção de modelos lineares e não-lineares. Para a SSF, o design mais preciso foi transectos em forma de cruz, com 200 m. Para CSS foram selecionados transectos em cruz, com 150 m. As áreas apresentaram valores de biomassa 1.3-6.7 Mg/ha para CSS e SSF, respectivamente. Em ambos tipos florestais foi encontrado que à medida que a classe de decomposição aumenta (mais fresco para mais podre), a densidade da madeira diminui, seguindo os mesmos padrões encontrados na literatura. A concentração de carbono não apresentou mudança dentro das classes de decomposição. Modelos nãolineares com diâmetro e comprimento como variáveis preditoras provaram ser uma ferramenta eficiente para predizer a biomassa e carbono de CWD. Como esperado, os dados de biomassa apresentaram heterocedasticidade, mitigada pela modelagem da variância dos resíduos com uma função de potência. A adição da classe de decomposição como variável indicadora também mostrou melhora nos modelos.

Allometric equation

Amostragem pela linha interceptadora

Biomass

Biomassa

Carbon

Carbono

Cerrado sensu-stricto

Cerrado sensu-stricto

Coarse woody debris

Densidade da madeira

Equação alométrica

Floresta Estacional Semidecidual

Line intersect sampling

Madeira morta

Seasonal Semi-deciduous Forest

Wood density

Forest edges in boreal landscapes - factors affecting edge influence

Jansson, Ulrika

January 2009

The boreal forest in Fennoscandia has been subjected to major loss and fragmentation of natural forests due to intensive forestry. This has resulted in that forest edges are now abundant and important landscape features. Edges have documented effects on the structure, function and biodiversity in forests. Edge influence on biodiversity is complex and depends on interactions between many local and regional factors. This thesis focuses on sharp forest edges and their potential to influence biodiversity at the landscape-level. I have developed a method for quantification and characterization of sharp forest edges by interpretation of colour infrared (CIR) aerial photographs in combination with line intersect sampling (LIS) and sample plots. The method was used to estimate density of forest edge in 28 landscapes (each 1600 ha) in northern Sweden, differing in management intensity, landscape composition and geographical location. Forest edges were described in detail using edge, canopy and neighbourhood attributes. By combining these attributes it was possible to classify edges with respect to levels of exposure. A field experiment was conducted to examine the effect of edge contrast on growth of the old forest lichen Usnea longissima. The edge quantification method is accurate and efficient for estimating the length of sharp forest edges on an area basis (edge density, m ha-1) and for collecting detailed attributes of edges and their surroundings. In northern Sweden, the forest edge density is high (54 m ha-1) but varies extensively (12-102 m ha-1) between landscapes. Edge density is strongly correlated with the level of human disturbance and increases towards the southern part of the study area, at lower altitudes were management intensity is highest. Edge orientation, contrast and neighbourhood size shows an immense variation between edges and also varies between edge types. Regenerating edges are generally of higher contrast and face larger neighbourhoods than natural edges. Maintained edges had high contrast but small neighbourhoods. A larger proportion of edges in mature forests are highly exposed to microclimatic edge influence than edges in general. The field experiment revealed that growth of U. longissima was highest near edges where the vegetation on the adjacent area was sheltering, but not shading, the lichen. In the present thesis, I have provided a valuable tool for estimating density of forest edges with potential to yield information on important factors determining edge influence at landscape-level. The large variability in edge density, edge and neighbourhood attributes imply large differences in microclimate anf thus in the potential for ede influence. Management and conservation strategies must incorporate these factors to realistically address edge influence on biota at the landscape-level.

aerial photographs

edge contrast

edge density

edge length

fetch size

forest fragmentation

lichen growth

line intersect sampling

pendulous lichen

photo interpretation

skogskant

flygbild

kantlängd

lav

Terrestrial ecology

Terrestisk ekologi

Estimation of volume, biomass, and carbon of coarse woody debris in native forests in São Paulo State, Brazil / Estimativa do volume, biomassa e carbono de madeira morta em florestas nativas no Estado de São Paulo, Brasil

Andrea Bittencourt Moreira

21 July 2017

The objective of this study was to test the line intersect sampling (LIS) methodology using the design-based inference with stratified systematic sampling and two transect shapes: a straight line and a cross shape, both with three different lengths (100, 150, and 200 m) to estimate the number of coarse woody debris (CWD) elements, their volume, biomass and carbon stocks; by decay class; furthermore, we fit and select CWD biomass and carbon models. The study area includes two types of native forest in the State of São Paulo, Brazil: a Seasonal Semi-deciduous Forest (SSF) and a Cerrado sensu-stricto (CSS). Two strata were chosen in each area, and in each stratum ten sampling units were installed according to a systematic sampling protocol. Each sampling unit had one North- South line of 200 m superimposed over the other lengths (100 and 150 m) and three lines (one for each length) in the East-West direction forming the cross shapes, for a total 650 m per sampling unit. All CWD elements with a diameter _ 10 cm that crossed the transect were tallied. For each element, the diameter, length, perpendicular width, decay class, and (when possible) species was recorded. Disc samples were taken from each element, from which cylinder samples were extracted then oven dried to determine density. These cylinders were milled and analyzed to determine carbon content (%). The volume of each element was calculated by taking the difference between cross-sectional area and any hollowed area, then multiplying by the element\'s length. Biomass was calculated by multiplying volume values by density values, and carbon stocks were calculated by multiplying biomass by the carbon percentage factors computed via lab analysis. Total estimators were calculated by area and per hectare for the number of CWD elements, their volume, biomass, and carbon stocks. These estimators were calculated by stratum then combined across the entire sample population. The data from each sampling unit was also used to calculate the wood density and carbon concentration by decay class, as well as to fit linear and nonlinear models. For the SSF area, the most accurate transect design was the 200 m cross shaped; and for the CSS area was selected the 150 m cross shape. Both areas showed lower biomass values (1.3 and 6.7 Mg/ha for the CSS and SSF areas, respectively) than other studies in the Amazon Forest where CWD research has been conducted. In both areas, as the decay class increased (from least to most rotten material), wood density decreased, which follows the same pattern as other literature. Carbon concentration barely changed within decay classes. Using a conversion constant of 50%, similar carbon stock results were obtained. Nonlinear models (using diameter and length as predictor variables) proved an efficient tool for predicting CWD biomass at an element level. As expected, biomass data exhibited heteroscedasticity, which was mitigated by modeling the variance of the residuals with a power function of the combined variable. Adding decay class as an indicator variable also resulted in model improvement. / Este estudo buscou testar a metodologia de amostragem pela linha interceptadora (LIS), usando a inferência baseada no design, com amostragem sistemática estratificada em duas formas de transectos: linha reta e forma de cruz, ambos com três diferentes comprimentos de transectos: 100, 150 e 200 m para estimar o número de elementos, volume, biomassa e estoque de carbono de madeira morta; investigar a densidade da madeira e a concentração de carbono da madeira morta pela classe de decomposição; e, ajustar e selecionar modelos de biomassa e carbono de madeira morta, em dois tipos de floresta nativa no estado de São Paulo, Brasil: uma Floresta Estacional Semidecidual (SSF) e um Cerrado sensu-stricto (CSS). Em cada tipo florestal foram selecionados dois estratos e localidas dez unidades de amostragem em cada. A unidade de amostragem é um transecto Norte-Sul, com 200 m, que sobrepõe os outros comprimentos (100 e 150 m), e três transectos (para cada comprimento) na direção Leste-Oeste, formando a cruz, totalizando 650m. Foram medidos todos os elementos de madeira morta grossa (CWD) que cruzaram o transecto com um diâmetro _10 cm. Foi medido o diâmetro na interseção, o comprimento, a largura perpendicular, o elemento foi classificado de acordo com a classe de decomposição e, quando possível, a espécie foi identificada. De cada elemento foi retirado um disco de amostra na interseção, este foi fotografado para o cálculo da área oca. De cada disco foram extraídos cilindros, secos em estufa para determinação da densidade, estes foram moídos e analisados para determinação do teor de carbono (%). O volume de cada elemento foi calculado pela diferença da área seccional e área oca, multiplicada pelo comprimento; a biomassa foi calculada multiplicando o volume pela densidade; e o estoque de carbono foi calculado multiplicando a biomassa pela concentração de carbono. Os estimadores do total foram calculados por área e por hectare para o número de elementos de CWD, volume, biomassa e estoque de carbono; foram calculados por estrato, e combinados para a população. Os dados dos 650m de cada unidade foram utilizados para calcular as médias da densidade da madeira e concentração de carbono por classe de decomposição e, para construção de modelos lineares e não-lineares. Para a SSF, o design mais preciso foi transectos em forma de cruz, com 200 m. Para CSS foram selecionados transectos em cruz, com 150 m. As áreas apresentaram valores de biomassa 1.3-6.7 Mg/ha para CSS e SSF, respectivamente. Em ambos tipos florestais foi encontrado que à medida que a classe de decomposição aumenta (mais fresco para mais podre), a densidade da madeira diminui, seguindo os mesmos padrões encontrados na literatura. A concentração de carbono não apresentou mudança dentro das classes de decomposição. Modelos nãolineares com diâmetro e comprimento como variáveis preditoras provaram ser uma ferramenta eficiente para predizer a biomassa e carbono de CWD. Como esperado, os dados de biomassa apresentaram heterocedasticidade, mitigada pela modelagem da variância dos resíduos com uma função de potência. A adição da classe de decomposição como variável indicadora também mostrou melhora nos modelos.

Amostragem pela linha interceptadora

Biomassa

Carbono

Cerrado sensu-stricto

Densidade da madeira

Equação alométrica

Floresta Estacional Semidecidual

Madeira morta

Allometric equation

Biomass

Carbon

Cerrado sensu-stricto

Coarse woody debris

Line intersect sampling

Seasonal Semi-deciduous Forest

Wood density

GIS-based Episode Reconstruction Using GPS Data for Activity Analysis and Route Choice Modeling / GIS-based Episode Reconstruction Using GPS Data

Dalumpines, Ron

26 September 2014

Most transportation problems arise from individual travel decisions. In response, transportation researchers had been studying individual travel behavior – a growing trend that requires activity data at individual level. Global positioning systems (GPS) and geographical information systems (GIS) have been used to capture and process individual activity data, from determining activity locations to mapping routes to these locations. Potential applications of GPS data seem limitless but our tools and methods to make these data usable lags behind. In response to this need, this dissertation presents a GIS-based toolkit to automatically extract activity episodes from GPS data and derive information related to these episodes from additional data (e.g., road network, land use). The major emphasis of this dissertation is the development of a toolkit for extracting information associated with movements of individuals from GPS data. To be effective, the toolkit has been developed around three design principles: transferability, modularity, and scalability. Two substantive chapters focus on selected components of the toolkit (map-matching, mode detection); another for the entire toolkit. Final substantive chapter demonstrates the toolkit’s potential by comparing route choice models of work and shop trips using inputs generated by the toolkit. There are several tools and methods that capitalize on GPS data, developed within different problem domains. This dissertation contributes to that repository of tools and methods by presenting a suite of tools that can extract all possible information that can be derived from GPS data. Unlike existing tools cited in the transportation literature, the toolkit has been designed to be complete (covers preprocessing up to extracting route attributes), and can work with GPS data alone or in combination with additional data. Moreover, this dissertation contributes to our understanding of route choice decisions for work and shop trips by looking into the combined effects of route attributes and individual characteristics. / Dissertation / Doctor of Philosophy (PhD)

GPS

time use diary

episode extraction

multinomial logit

travel behavior

mode detection

episode reconstruction

GIS

map-matching

route choice

path size logit

potential path area

scale estimation

Python

ArcGIS

activity analysis

trip reconstruction

smartphone

global positioning system

geographic information system

toolkit

work trip

shop trip

potential activity location

land use

activity episode

travel episode

stop episode

transferability

scalability

modularity

scripting

big data

travel survey

respondent burden

preprocessing

multipath error

tracking

purpose detection

segmentation

data filter

data smoothing

fuzzy logic

neural network

decision tree

rule-based algorithm

trajectory

point

road network

network dataset

gateway

shortest path

horizontal dilution of precision

HDOP

commonality factor

mode transfer point

Halifax

Nova Scotia

Space-Time Activity Research

variance inflation factor

shapefile

comma-separated values

traveling salesman problem

data mining

branch-and-bound algorithm

pedestrian network

alternative route

observed route

route efficiency

route attributes

distance

time

heading

bearing

duration

acceleration

latitude

longitude

coordinate

overlay analysis

intersect

shopping

module

data logger

walk

likelihood ratio test

classification table

path generation

kappa statistic

degrees

data collection

transportation research

automate

framework

ArcToolbox

spatio-temporal

navigation

positioning

trace path

spatial data

topology

horizontal accuracy

SPSS

Stata

spatial resolution

temporal resolution

household survey

trip reporting

proximity analysis

DMTI

Desktop Mapping Technologies Inc.

road intersection

route overlap

left turn

right turn

location analysis

time geography

spatial statistics

buffer analysis

cycling

bus transit

public transportation

GEOIDE

AGILE

data need

raw data

urban canyon

endpoint

data cleaning

elevation

satellite

outliers

automatic processing

nearest node

classifier

classification method

short trip

multi-point