Acquisition cost estimating methodology for aircraft conceptual design

Zhao, Tienan

January 2008

The research was conducted in the light of a training programme which will train a total of 150 engineers of AVIC I in Cranfield University during a period of 3 years. Cost has become an essential driver to aircraft design, as well as performances due to either the limited defence budget or competitive airline market. Consequently, knowing the possible cost prior to making actual expenditure will help managers to make proper decisions and allocate resources efficiently, and designers to optimize their work. Existing aircraft cost estimating models are outdated and mainly based on a database including both military and civil aircraft with various missions. This research concentrated on commercial jet aircraft and was to develop a suitable acquisition cost estimating methodology for conceptual design from a commercial aircraft manufacturer’s perspective. The literature reviewing took a comprehensive overview of some widely-applied cost estimating methods: Analogy, Parametric, Bottom-up, Feature-based costing, Activitybased costing (ABC), Expert judgement, and etc. Some practical cost models were also reviewed to learn the application of cost estimating in the aerospace industry. Then, analogy and parametric approaches were selected to perform the methodology development considering the limited data available at the conceptual design phase. An investigation was deployed to identify the actual problems in practice. The results helped to recognize the needs of industry. Also, the preparation works for development are presented to understand the environment. With subjective judgement and statistical techniques, a series of cost estimating relationships (CERs) were achieved, in which some historic explanatory parameters remained or were eliminated, and some new ones introduced. Size of aircraft became another variable besides weight. As to engines, all developed explanatory variables have been revealed in prior researches. The validation of CERs proves that they can provide reliable cost estimates with high accuracy and can be applied to conceptual design. In addition, a case study was conducted using a baseline aircraft defined in the group design project (GDP) and presents cost forecasting for the proposed aircraft. At last, discussion and conclusion presents an overview of the research. A framework for cost estimating system can be educed. Also, the future work is proposed for in-depth research.

Aircraft

Conceptual Design

Acquisition Cost

Cost Estimating

Analogy

Parametric

Regression

On drug use, multiple medication and polypharmacy in a national population

Hovstadius, Bo

January 2010

The application of multiple medications has successively increased during a number of years and has thereby increased the potential risks of adverse drug reactions, interactions and non-adherence to drug therapy. This may result in unnecessary health expenditure, directly due to redundant drug sales, and indirectly due to the increased hospitalization caused by drug-related problems. The overall aim of this thesis was to investigate the occurrence and development of drug use, multiple medication, and polypharmacy in an entire national population by using individual-based data on dispensed drugs. The studies (I-V) in the thesis are based on data of dispensed prescription drugs for up to 6.2 million individuals obtained from the Swedish Prescribed Drug Register. The data in the studies cover different periods of time between July 2005-Sept 2008, and the data have been analyzed on the basis of epidemiological measures and statistical methods. The major conclusions of the studies are: the prevalence of dispensed drugs and multiple medications was extensive in all age groups and was higher for females than for males. Multiple medications should be regarded as a risk in terms of potential drug-drug interactions and adverse drug reactions in all age groups (I). Regional differences in the prevalence of polypharmacy were observed and partly explained by the regional age distribution in Sweden. The use of a novel weighted polypharmacy index indicated regional differences in drug therapy for individuals with polypharmacy (II). The number of drugs used by an individual not only increased the potential risks associated with multiple drug use, but also the potential burden of an increased therapeutic intensity, especially for elderly (III). Individuals with ten or more drugs accounted for almost fifty percent of the total acquisition costs of dispensed drugs. Therefore, interventions with a focus on the reduction of the number of prescription drugs for the small group of patients with a large number of different drugs may also result in a substantial reduction in the total drug costs (IV). In spite of national and regional efforts to reduce polypharmacy, the prevalence of polypharmacy and excessive polypharmacy and the mean number of drugs per individual continued to increase in Sweden 2005-2008 (V). The observed year-by-year increase in polypharmacy underlines the importance of monitoring the development of drug use in all ages. Individual-based registers studies of dispensed drugs provide high quality data and could serve as the basis for further research and also in terms of training health care personnel. It can also be used as a base for interventions and the evaluation of drug use. To enable better comparisons on drug use and its consequences, there is a need for standards concerning measurements, classification and criteria which encompass all types of medications. For clinicians, there is a need for information concerning the patient’s actual use of all different types of medications.

drug use

multiple medication

polypharmacy

register

prevalence

therapeutic intensity

acquisition cost.

Natural Sciences

Naturvetenskap

Highway Development Decision-Making Under Uncertainty: Analysis, Critique and Advancement

El-Khatib, Mayar

January 2010

While decision-making under uncertainty is a major universal problem, its implications in the field of transportation systems are especially enormous; where the benefits of right decisions are tremendous, the consequences of wrong ones are potentially disastrous. In the realm of highway systems, decisions related to the highway configuration (number of lanes, right of way, etc.) need to incorporate both the traffic demand and land price uncertainties. In the literature, these uncertainties have generally been modeled using the Geometric Brownian Motion (GBM) process, which has been used extensively in modeling many other real life phenomena. But few scholars, including those who used the GBM in highway configuration decisions, have offered any rigorous justification for the use of this model. This thesis attempts to offer a detailed analysis of various aspects of transportation systems in relation to decision-making. It reveals some general insights as well as a new concept that extends the notion of opportunity cost to situations where wrong decisions could be made. Claiming deficiency of the GBM model, it also introduces a new formulation that utilizes a large and flexible parametric family of jump models (i.e., Lévy processes). To validate this claim, data related to traffic demand and land prices were collected and analyzed to reveal that their distributions, heavy-tailed and asymmetric, do not match well with the GBM model. As a remedy, this research used the Merton, Kou, and negative inverse Gaussian Lévy processes as possible alternatives. Though the results show indifference in relation to final decisions among the models, mathematically, they improve the precision of uncertainty models and the decision-making process. This furthers the quest for optimality in highway projects and beyond.

highway development

decision making under uncertainty

real options

jump processes

infinitely divisible distributions

Lévy processes

measure theory

characteristic function

characteristic exponent

Lévy jump measure

probability measure

cádlág stochastic process

Wiener process

Poisson process

compound Poisson process

finite activity models

jump diffusion models

Merton model

Gaussian jump process

Kou model

double exponential jump process

leptokurtic

volatility smile

infinite activity models

pure jumps process

generalized hyperbolic model

modified Bessel function

negative inverse Gaussian model

geometric Brownian motion model

log-normal distribution model

normality assumption

heavy-tailed distribution

asymmetric distribution

quantile-quantile plot

Rydberg algorithm

parameter calibration

moments

cummulants

sum of squares

Monte Carlo simulation

least-squares regression

backward dynamic programming

discrete-time Markov chain

land price

traffic demand

highway service quality index

data collection

traffic volume

Annual Average Daily Traffic

Ontario Ministry of Transportation

Land Registry Office

Freedom of Information Act

seasonality

value of transportation

types of transportation systems

importance of highway systems

cost of wrong decisions

monetary cost

private sector cost

human cost

land expropriation

environmental cost

irreversibility cost factor

time cost factor

political cost factor

opportunity cost

opportunity cost of wrong decisions

economic cost of wrong decisions

economic cost of mis-estimation

economic profit of wrong decisions

cost of inaction

price of making right decisions

scope of decisions

rehabilitation decision

land acquisition decision

expansion decision

uncertainty modeling

land acquisition cost

expropriation cost

construction cost

material cost

Montréal-Mirabel International Airport

Pickering Airport

407 Express Toll Route

Highway 407

Statistics

Highway Development Decision-Making Under Uncertainty: Analysis, Critique and Advancement

El-Khatib, Mayar

January 2010

While decision-making under uncertainty is a major universal problem, its implications in the field of transportation systems are especially enormous; where the benefits of right decisions are tremendous, the consequences of wrong ones are potentially disastrous. In the realm of highway systems, decisions related to the highway configuration (number of lanes, right of way, etc.) need to incorporate both the traffic demand and land price uncertainties. In the literature, these uncertainties have generally been modeled using the Geometric Brownian Motion (GBM) process, which has been used extensively in modeling many other real life phenomena. But few scholars, including those who used the GBM in highway configuration decisions, have offered any rigorous justification for the use of this model. This thesis attempts to offer a detailed analysis of various aspects of transportation systems in relation to decision-making. It reveals some general insights as well as a new concept that extends the notion of opportunity cost to situations where wrong decisions could be made. Claiming deficiency of the GBM model, it also introduces a new formulation that utilizes a large and flexible parametric family of jump models (i.e., Lévy processes). To validate this claim, data related to traffic demand and land prices were collected and analyzed to reveal that their distributions, heavy-tailed and asymmetric, do not match well with the GBM model. As a remedy, this research used the Merton, Kou, and negative inverse Gaussian Lévy processes as possible alternatives. Though the results show indifference in relation to final decisions among the models, mathematically, they improve the precision of uncertainty models and the decision-making process. This furthers the quest for optimality in highway projects and beyond.

highway development

decision making under uncertainty

real options

jump processes

infinitely divisible distributions

Lévy processes

measure theory

characteristic function

characteristic exponent

Lévy jump measure

probability measure

cádlág stochastic process

Wiener process

Poisson process

compound Poisson process

finite activity models

jump diffusion models

Merton model

Gaussian jump process

Kou model

double exponential jump process

leptokurtic

volatility smile

infinite activity models

pure jumps process

generalized hyperbolic model

modified Bessel function

negative inverse Gaussian model

geometric Brownian motion model

log-normal distribution model

normality assumption

heavy-tailed distribution

asymmetric distribution

quantile-quantile plot

Rydberg algorithm

parameter calibration

moments

cummulants

sum of squares

Monte Carlo simulation

least-squares regression

backward dynamic programming

discrete-time Markov chain

land price

traffic demand

highway service quality index

data collection

traffic volume

Annual Average Daily Traffic

Ontario Ministry of Transportation

Land Registry Office

Freedom of Information Act

seasonality

value of transportation

types of transportation systems

importance of highway systems

cost of wrong decisions

monetary cost

private sector cost

human cost

land expropriation

environmental cost

irreversibility cost factor

time cost factor

political cost factor

opportunity cost

opportunity cost of wrong decisions

economic cost of wrong decisions

economic cost of mis-estimation

economic profit of wrong decisions

cost of inaction

price of making right decisions

scope of decisions

rehabilitation decision

land acquisition decision

expansion decision

uncertainty modeling

land acquisition cost

expropriation cost

construction cost

material cost

Montréal-Mirabel International Airport

Pickering Airport

407 Express Toll Route

Highway 407

Statistics