Your search keyword '"Fuzhan Nasiri"' showing total 46 results

1. Optimal dispatching of renewable energy‐based urban microgrids using a deep learning approach for electrical load and wind power forecasting

Author

Navid Shirzadi, Ursula Eicker, Claude Ziad El-Bayeh, and Fuzhan Nasiri

Subjects

Electrical load, Renewable Energy, Sustainability and the Environment, business.industry, Computer science, Energy Engineering and Power Technology, Wind power forecasting, Environmental economics, Energy storage, Renewable energy, Fuel Technology, Power system simulation, Nuclear Energy and Engineering, Microgrid, business, Resilience (network), Integer programming

Published

2021

2. An empirical study on non-physical waste factors in the construction industry

Author

Charles Igwe, Amin Hammad, and Fuzhan Nasiri

Subjects

Lean construction, Empirical research, Construction industry, Architecture, Building and Construction, Business, General Business, Management and Accounting, Industrial organization, Civil and Structural Engineering

Abstract

PurposeThis study highlights the findings of an empirical study to investigate waste factors (WFs) affecting the performance and delivery of construction projects in developing countries. The objectives of this study are to identify non-physical WFs in developing nations and rank the identified factors based on their degree of influence on the key performance indicators (KPIs) of cost, quality and time.Design/methodology/approachIn total, 34 WFs were identified through a detailed literature review and consolidated using semi-structured interviews with construction practitioners. The statistical analysis involved a normality test using the Shapiro–Wilk test to determine if sample data have been drawn from a normally distributed population, ranking the WFs using the Frequency Index (FI), Severity Index (SI) and Importance Index (IMPI), ranking the WFs based on their effect on the project KPIs of cost, quality and time, and identify clustering structures for the identified WFs to using factor analysis (FA).FindingsThe results revealed ineffective planning and scheduling, rework/repair of defective work and resource quality problems (human, material and equipment) as the three most important WFs affecting construction projects. The factor analyses showed that WFs can be grouped into five interrelated components, suggesting the need for integrated and holistic strategies to overcome the identified WF.Practical implicationsUnderstanding the effects of WFs on construction projects is a first step towards designing holistic solutions to ensuring projects deliver value to the clients and other stakeholders. The findings of this study provide direction to construction practitioners on where to focus appropriate strategies to manage the identified WFs effectively and, therefore, improve the productivity of construction projects.Originality/valueThis study provides the first holistic analysis of WFs affecting the productivity of construction projects in developing countries.

Published

2021

3. Resilience-based optimization model for maintenance and rehabilitation of pavement networks in a freeze–thaw environment

Author

Fuzhan Nasiri, Tarek Zayed, Soliman Abu-Samra, Ashutosh Bagchi, and Ahmed Mohammed

Subjects

021110 strategic, defence & security studies, Rehabilitation, business.industry, medicine.medical_treatment, 0211 other engineering and technologies, 02 engineering and technology, Environmental economics, Investment (macroeconomics), Road networks, 021105 building & construction, medicine, Asset management, Business, Resilience (network), General Environmental Science, Civil and Structural Engineering

Abstract

According to the Canada infrastructure report 2016, 62.6% of roads in Canada are in a good condition, nevertheless, with current investment rates, significant road networks will suffer a decline in their condition and will be vulnerable to sudden failure. Accordingly, this paper tackles the pavement resilience from an asset management perspective and aims at developing a resilience-based asset management framework for pavement networks. This was carried out through the development of five components: (i) a central database of asset inventory, (ii) a pavement condition and level of service assessment models, (iii) a regression of the effect of freeze–thaw on pavement network, (iv) a financial and temporal models, and (v) an optimization model to formulate the mathematical denotation for the proposed resilience assessment approach and integrate the above components. The model results were promising in terms of maintaining pavement resiliency by selecting a near optimal intervention plan that meets the municipality limitations.

Published

2021

4. A failure prediction model for corrosion in gas transmission pipelines

Author

Tarek Zayed, Fuzhan Nasiri, and Kimiya Zakikhani

Subjects

Petroleum engineering, business.industry, Gas transmission, 0211 other engineering and technologies, 02 engineering and technology, Corrosion, Pipeline transport, chemistry.chemical_compound, 020303 mechanical engineering & transports, 0203 mechanical engineering, chemistry, Transmission (telecommunications), Natural gas, Petroleum, Environmental science, 021108 energy, Safety, Risk, Reliability and Quality, business

Abstract

Transmission pipelines comprise a major part of a gas network, conveying natural gas within jurisdictions, and across international boundaries. In the United States, more than 10,000 failure incidents have been reported in gas transmission pipelines in a 20-year period from 1996 to 2016 leading to a cumulative property damage of more than $748 million. Among different failure sources, corrosion is ranked as the most frequent one, corresponding to approximately a quarter of total failures. Though in-line inspection is counted as the most frequently applied corrosion monitoring technique for oil and gas pipelines, it imposes considerable costs due to the necessity of implementing frequent inspections using smart devices. For this reason, several failure prediction models have been developed to estimate the corrosion failure. However, the majorities of these prediction models rely solely on experimental tests or limited historical records which undermine the extent of their applicability and ignore pipeline environmental and geographical circumstances. The objective of this research is to develop failure prediction models for external corrosion in underground gas transmission pipelines by considering both conventional and environmental/geographical variables. For this objective, multiple regression analysis was performed on the accessible historical data reported for gas transmission pipelines. Two main climate regions of Great Plains and South East in the US were selected, and their corresponding failure prediction models were developed. Such development was based on a step by step procedure analyzing different scenarios. Considering diagnostic measures, null hypothesis and residual analysis, scenario 3 was selected as satisfactory. The validation tests of the developed models present a root mean square error (RMSE) of 0.04 and 0.07 and R-Sq of 0.93 and 0.75, respectively. The results of this research can be applied in maintenance planning of gas transmission pipeline to estimate the critical time in which a pipeline may encounter external corrosion failure, and to accordingly schedule the maintenance activities.

Published

2020

5. Influence of lean construction wastes on the transformation-flow-value process of construction

Author

Amin Hammad, Charles Igwe, and Fuzhan Nasiri

Subjects

Lean construction, business.industry, Process (engineering), Strategy and Management, 0211 other engineering and technologies, 020101 civil engineering, 02 engineering and technology, Building and Construction, Transformation (music), 0201 civil engineering, Flow (mathematics), Management of Technology and Innovation, 021105 building & construction, Process engineering, business, Value (mathematics), Mathematics

Abstract

Construction projects result in the generation of wastes, which can be broadly classified into physical and non-physical wastes. Non-physical wastes present a different challenge than physical wast...

Published

2020

6. Effect of fuel composition uncertainty on grate firing biomass combustor performance: a Bayesian model averaging approach

Author

Bruno Lee, Mohammad Hosseini Rahdar, and Fuzhan Nasiri

Subjects

Renewable Energy, Sustainability and the Environment, business.industry, 020209 energy, Biomass, 02 engineering and technology, 010501 environmental sciences, Combustion, Solid fuel, 01 natural sciences, Adiabatic flame temperature, 0202 electrical engineering, electronic engineering, information engineering, Combustor, Environmental science, Char, Process engineering, business, Grate firing, Uncertainty analysis, 0105 earth and related environmental sciences

Abstract

Biomass has great potential to meet greenhouse gas reduction and fuel supply security in the future. Although the grate biomass combustors are increasingly deployed worldwide to generate energy from solid biomass, challenges in understanding the system operation to some extent have remained. This paper analyzes the effects of fuel composition uncertainty on the biomass grate combustor’s performance, which have not been solved so far. A 1D transient numerical model of the biomass fuel bed combustion is developed. A set of thermal gravimetric analysis (TGA) experiments on randomly selected biomass particles from the same fuel supplier are conducted to achieve the proximate analysis of the particles. The Bayesian model averaging (BMA) method was exercised to deliver the fuel uncertainty into the CFD model of the fuel bed. Results revealed that the fuel composition variability can significantly affect the solid fuel conversion so that ignoring them can result in incomplete combustion. In three various scenarios proposed, combustor is analyzed: (I) using primary fuel composition given by the producer, (II) mean value of fuel composition obtained from the BMA model, and lastly (III) fuel composition under fully uncertainty conditions. Results revealed that overlooking the fuel uncertainty results in overestimating system energy output by 8.3% and also can waste 1611-kg feed annually which is roughly 5% of whole consumed fuel. Meanwhile, owing to uncertainty associated with fuel composition, flame temperature can fluctuate up to 15 °C. According to the uncertainty analysis, char content of wood pellets has dominating role in fuel quality. Finally, a life cycle analysis (LCA) is conducted for the first, second, and coal-fueled system scenarios.

Published

2020

7. Construction workspace management: critical review and roadmap

Author

Charles Igwe, Amin Hammad, and Fuzhan Nasiri

Subjects

Computer science, business.industry, Strategy and Management, 0211 other engineering and technologies, 020101 civil engineering, 02 engineering and technology, Building and Construction, Workspace, Construction engineering, 0201 civil engineering, Building information modeling, TheoryofComputation_LOGICSANDMEANINGSOFPROGRAMS, Management of Technology and Innovation, 021105 building & construction, Construction planning, business, Productivity

Abstract

Construction workspace management has been a big issue in research and practice in recent years due to the need to improve productivity and safety by reducing spatio-temporal clashes in the managem...

Published

2020

8. Data center maintenance: applications and future research directions

Author

Mostafa Fadaeefath Abadi, Fuzhan Nasiri, and Fariborz Haghighat

Subjects

Computer science, business.industry, 0211 other engineering and technologies, Information technology, Human Factors and Ergonomics, 02 engineering and technology, Building and Construction, Scheduling (computing), Engineering management, Systematic review, Server, 021105 building & construction, Architecture, Management system, Industrial systems, Data center, 021108 energy, business, Maintenance management

Abstract

Purpose One of the most critical infrastructures is a data center (DC) because of it having many servers, computers and other equipment. DCs provide online services for various companies in the information technology (IT) industry. DC facilities should provide reliable online services while addressing the required quality and performance level considering maximum reliability and availability. The purpose of this study is to represent and classify the main findings in this area and to identify the main research gaps and shortcomings from the perspective of research. Design/methodology/approach This paper provides an organized and systematic literature review focusing on topics regarding the operation and maintenance (O&M) management of DCs. Findings Although there are several studies on O&M management systems for industrial systems and facilities, a limited number of studies with few methods and models have focused on DCs so far and these facilities require more attention. This paper identifies the issues and challenges for DC buildings and facilities and provides a conclusion of the findings to highlight the main research limitations for discovering new potential methods as future research opportunities. Research limitations/implications The paper has highlighted the main practical issues of DCs in terms of maintenance management. Several research works have been discussed specifically for DC’s maintenance, which makes this paper a credible source for researchers, maintenance managers and companies involved in the area of DC. Because several of the reviewed literature were based on real case studies, decision-makers in the DC maintenance sector can take advantage of new research on maintenance scheduling to reduce the costs of maintenance. Originality/value The paper has presented a comprehensive list of frequent keywords in recent publications related to O&M management for DCs. It has provided a categorized list of publications based on by their topic, methodology and case study. Because this paper has discussed research works specifically for DC’s maintenance, it is a credible source for researchers, maintenance managers and companies involved in the area of DCs.

Published

2020

9. Availability-based predictive maintenance scheduling for vibrating-grate biomass boilers

Author

Fuzhan Nasiri, Bruno Lee, and Mohammad Hosseini Rahdar

Subjects

Fault tree analysis, 021110 strategic, defence & security studies, Biomass boiler, business.industry, 05 social sciences, 0211 other engineering and technologies, Scheduling (production processes), Biomass, 02 engineering and technology, General Medicine, Predictive maintenance, Maintenance plan, Environmental science, 0501 psychology and cognitive sciences, Process engineering, business, 050107 human factors

Abstract

This paper proposes an availability-based maintenance scheduling for a vibrating-grate biomass boiler. The main objective is to minimise the maintenance programme cost while maintaining the system ...

Published

2020

10. Two-Stage Predictive Maintenance Planning for Hospital Buildings: A Multiple-Objective Optimization-Based Clustering Approach

Author

Tarek Zayed, Fuzhan Nasiri, and Reem Ahmed

Subjects

Hardware_MEMORYSTRUCTURES, business.industry, Computer science, k-means clustering, Building and Construction, Machine learning, computer.software_genre, Predictive maintenance, Hierarchical clustering, Task (project management), Facility management, Genetic algorithm, ComputingMilieux_COMPUTERSANDSOCIETY, Stage (hydrology), Artificial intelligence, Safety, Risk, Reliability and Quality, business, Cluster analysis, computer, Civil and Structural Engineering

Abstract

Prioritization of maintenance and rehabilitation interventions according to their urgency, expected improvements, costs, and downtimes is a necessary task in facility management. This is pa...

Published

2022

11. A Review of Numerical Modeling and Experimental Analysis of Combustion in Moving Grate Biomass Combustors

Author

Bruno Lee, Mohammad HosseiniRahdar, and Fuzhan Nasiri

Subjects

business.industry, 020209 energy, General Chemical Engineering, Energy Engineering and Power Technology, Numerical modeling, Biomass, 02 engineering and technology, Combustion, Fuel Technology, 020401 chemical engineering, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, 0204 chemical engineering, Current (fluid), Process engineering, business

Abstract

This Review covers the current state-of-the-art literature dealing with numerical modeling and experimental analysis of moving grate biomass combustors. The greatest attention is paid to the modeli...

Published

2019

12. Comparative assessment of insulated concrete wall technologies and wood-frame walls in residential buildings: a multi-criteria analysis of hygrothermal performance, cost, and environmental footprints

Author

Fuzhan Nasiri, Farhad Amiri Fard, and Ali Jafarpour

Subjects

Engineering, Architectural engineering, business.industry, 020209 energy, 0211 other engineering and technologies, 02 engineering and technology, Building and Construction, Durability, Multi criteria, 021105 building & construction, Sustainability, 0202 electrical engineering, electronic engineering, information engineering, Life cycle costing, business, Life-cycle assessment, Building envelope

Abstract

Utilizing appropriate materials and assemblies in building envelope components could lead to energy savings, increased durability, and sustainability gains. This study aims at providing an integrat...

Published

2019

13. Application of Multiagent Simulation for Maintenance Workflow Management and Resource Allocation in Hospital Buildings

Author

Fuzhan Nasiri, Zahra Yousefli, and Osama Moselhi

Subjects

Decision support system, Process management, Visual Arts and Performing Arts, Computer science, business.industry, Multi-agent system, Multitude, Building and Construction, Scheduling (computing), Facility management, Workflow, Architecture, Resource allocation, business, Limited resources, Civil and Structural Engineering

Abstract

Facility managers of hospitals face complex maintenance decisions as they deal with a multitude of maintenance requests in an environment of limited resources and segmented information. Re...

Published

2021

14. Neutrosophic-AHP-based GA Model for Renewals Planning of Hospital Building Assets

Author

Reem Ahmed, Fuzhan Nasiri, and Tarek Zayed

Subjects

Sustainable development, Rehabilitation, Computer science, business.industry, medicine.medical_treatment, Deferred maintenance, Analytic hierarchy process, Allowance (engineering), Maintenance engineering, Occupational safety and health, Risk analysis (engineering), Health care, medicine, business

Abstract

Healthcare building infrastructure in Canada is currently facing two problems: Aging and Deferred Maintenance, leading to an increase in unexpected failures causing interruptions in the hospital operation which in turn affects the health and safety of its occupants. Despite the efforts exerted to overcome this, solutions cannot be easily implemented as they are often faced with limited and insufficient funds. Therefore, previous researches have experimented ways targeting a reduction in the rehabilitation costs while sustaining an acceptable physical condition of hospital assets. However, there is more to a building's performance than its physical condition. Hence, this study assesses the hospital performance by including functional parameters of components rather than solely evaluating their physical condition on the basis of an integration between Neutrosophic Logic and Analytic Hierarchy Process, and accordingly improves the rehabilitation decisions by utilizing the output from the previous model as an objective for a genetic algorithm optimization model to prioritize rehabilitation activities within a limited funding allowance. The developed model was validated by applying it to a real hospital situation where the results obtained from the model were compared to the actual output attained from rehabilitation works inside the hospital facility, and the model developed in this study outperformed the current practice by an improvement of 34%. This framework is expected to aid decision-makers in efficiently allocating rehabilitation funds to the most critical hospital building systems which in turn improves the performance and availability of hospital assets.

Published

2020

15. Stochastic-based Deterioration Modeling of Elevators in Healthcare Facilities

Author

Fuzhan Nasiri, Tarek Zayed, Reem Ahmed, Ahmed Assad, and Eslam Mohammed Abdelkader

Subjects

Proactive maintenance, Risk analysis (engineering), Elevator, Computer science, business.industry, Sustainability, Health care, Life expectancy, Probability distribution, Special case, business, Data modeling

Abstract

Deterioration and aging associated with building assets are becoming major concerns in most countries as their building portfolios continue to increase and expand. Healthcare facilities are a special case of building assets that inherit a significant criticality and complexity within its operation and maintenance regimes which makes monitoring the assets' condition and forecasting their life expectancy two of the most essential functions in a healthcare environment. In this paper, a stochastic deterioration prediction approach was developed to model and estimate the degradation of elevators systems within hospital building environments due to their importance to the continuity of the hospital mission and services. Different probability distributions were fitted using historical condition data and the performance of different distributions was then compared utilizing the Anderson-Darling test. Parameters of the best distribution were thus found using maximum likelihood estimate. The developed model is expected to aid decision makers in improving the planning process for their maintenance and rehabilitation programs and to efficiently conduct proactive maintenance activities in a timely manner which helps ensure the sustainability of hospital operation.

Published

2020

16. Automated Anomaly Detection and Localization in Sewer Inspection Videos Using Proportional Data Modeling and Deep Learning–Based Text Recognition

Author

Fuzhan Nasiri, Farzaneh Golkhoo, Saeed Moradi, and Tarek Zayed

Subjects

business.industry, Computer science, Deep learning, 0211 other engineering and technologies, 020101 civil engineering, 02 engineering and technology, Text recognition, 0201 civil engineering, Data modeling, Pipeline transport, 021105 building & construction, Anomaly detection, Computer vision, Artificial intelligence, business, Closed circuit, Civil and Structural Engineering

Abstract

In recent decades, closed circuit television (CCTV) has been the most used tool for visually inspecting the internal condition of pipelines. However, CCTV inspection requires long videos to...

Published

2020

17. Reliable, Effective, and Sustainable Urban Railways: A Model for Optimal Planning and Asset Management

Author

Fuzhan Nasiri, Alireza Mohammadi, and Luis Amador-Jimenez

Subjects

business.industry, Strategy and Management, 0211 other engineering and technologies, Optimal maintenance, Optimal planning, 02 engineering and technology, Building and Construction, 010501 environmental sciences, 01 natural sciences, Human development (humanity), Risk analysis (engineering), Industrial relations, Sustainability, Asset management, 021108 energy, business, health care economics and organizations, 0105 earth and related environmental sciences, Civil and Structural Engineering

Abstract

Urban railways play a critical role in the daily life of citizens. However, extensive deterioration of mostly aged systems complicates the management of this type of infrastructure in copin...

Published

2020

18. Optimising public transport for reducing employment barriers and fighting poverty

Author

Alireza Mohammadi, Luis Amador-Jimenez, Fuzhan Nasiri, and Feras Elsaid

Subjects

Sustainable development, 050210 logistics & transportation, Poverty, Renewable Energy, Sustainability and the Environment, business.industry, 020209 energy, 05 social sciences, Geography, Planning and Development, 02 engineering and technology, Management, Monitoring, Policy and Law, Public transport, 0502 economics and business, Development economics, 0202 electrical engineering, electronic engineering, information engineering, Business

Published

2018

19. Review of asset management for metro systems: challenges and opportunities

Author

Fuzhan Nasiri, Luis Amador-Jimenez, and Alireza Mohammadi

Subjects

Transport engineering, 050210 logistics & transportation, business.industry, 0502 economics and business, 05 social sciences, 0211 other engineering and technologies, 021107 urban & regional planning, Transportation, Asset management, 02 engineering and technology, Business

Abstract

Metro systems play a crucial role in the movement of millions of passengers worldwide as commuters rely on a fast, reliable, and convenient underground railway for their daily transportation. Howev...

Published

2018

20. An enviro-economic optimization of a hybrid energy system from biomass and geothermal resources for low-enthalpy areas

Author

Mohammad Sameti, Fuzhan Nasiri, and Masoud Rezaei

Subjects

business.industry, 020209 energy, TOPSIS, 02 engineering and technology, 010501 environmental sciences, Multiple-criteria decision analysis, 7. Clean energy, 01 natural sciences, Sizing, Nonlinear programming, Base load power plant, Peak demand, 13. Climate action, Heat generation, 0202 electrical engineering, electronic engineering, information engineering, Environmental science, Process engineering, business, Geothermal gradient, 0105 earth and related environmental sciences

Abstract

In this paper, a combined biomass-geothermal system, intended to supply heat in low enthalpy areas with an extremely cold climate, is optimized based on a nonlinear optimization methodology. A Multiple Criteria Decision-Making technique is coupled with a two-step optimization to achieve the most exploitable energy with the least pollution and cost possible. Three nonlinear objective functions for optimization with three criteria for decision-making were used to minimize the heat generation cost and pollution for a modeled building in Kuujjuaq, Canada. The biomass-geothermal system is split into two parts, surface, and subsurface parts. Twelve scenarios, including three wood pellet types, in four distance ranges from pellet mills, are first defined. Then, via modeling a building for heat demand analysis, the required heat is yielded. Afterward, in the first step of optimization, the cost and pollution functions for surface parts are developed and optimized using the genetic algorithm and screened by the MCDM technique, called TOPSIS, to size the biomass and geothermal subsystems. In the second step, using the sizing from the first step as a constraint, the cost of the geothermal ground heat exchanger is minimized. Twelve scenarios are optimally configured in this way with minimum cost and pollution in relation to operational parameters, such as utilization time and rated powers. The research proposes a methodology that sizes the biomass geothermal (bio-geo) system and can be extended to other technologies, such as turbines, energy storages, or fuel. Furthermore. It provides a correlation between cost and heat generation from biomass-geothermal systems for Kuujjuaq, Canada, and twelve optimal scenarios with system operating parameters. A basis for system sizing and system selection for baseload and peak demand shaving is also considered. Geothermal- and biomass-rated capacities vary with scenarios from 44% to 56% of the total rated capacity.

Published

2021

21. A novel Neutrosophic-based machine learning approach for maintenance prioritization in healthcare facilities

Author

Fuzhan Nasiri, Reem Ahmed, and Tarek Zayed

Subjects

Computer science, Process (engineering), business.industry, Analytic network process, 0211 other engineering and technologies, Decision tree, 02 engineering and technology, Building and Construction, Asset (computer security), Machine learning, computer.software_genre, Field (computer science), Task (project management), Naive Bayes classifier, Ranking, Mechanics of Materials, 021105 building & construction, Architecture, 021108 energy, Artificial intelligence, Safety, Risk, Reliability and Quality, business, computer, Civil and Structural Engineering

Abstract

The development of decision support tools for use in the maintenance management and renewal prioritization of healthcare facility assets is considered a highly challenging task due to the multiplicity of uncertainties and subjectivity levels available in such a decision-making process. Accordingly, this study utilizes a combination of Neutrosophic logic, Analytic Network Process (ANP) and Multi-Attribute Utility Theory (MAUT) to reduce the subjectivity pertaining to expert-driven decisions and produce a reliable ranking of hospital building assets based on their variable criticality levels and performance deficiencies. This is further integrated with the novel use of machine learning algorithms in this field, namely: Decision Trees, K-Nearest Neighbors and Naive Bayes to automate the priority setting process and make it reproducible diminishing the need for additional expert judgments. The developed model was applied to Canadian healthcare facilities, and its corresponding predictive performance was validated by means of comparison against a previously established model, and its excelling capability was clearly demonstrated. Accordingly, the developed integrated framework is expected to aid in creating a consistent, unbiased and automated prioritization scheme for hospital asset renewals, which in turn is expected to contribute to an efficient, informed and sound resources allocation process.

Published

2021

22. Healthcare facilities maintenance management: a literature review

Author

Fuzhan Nasiri, Zahra Yousefli, and Osama Moselhi

Subjects

Decision support system, Hierarchy, Process management, business.industry, Strategy and Management, media_common.quotation_subject, 05 social sciences, 0211 other engineering and technologies, Information technology, 02 engineering and technology, Facility management, Computerized maintenance management system, Management of Technology and Innovation, 021105 building & construction, 0502 economics and business, Health care, Performance measurement, Business and International Management, business, Function (engineering), 050203 business & management, media_common

Abstract

Purpose The complexity and criticality of healthcare services highlight the importance of maintenance management function in healthcare facilities. The purpose of this paper is to review the literature on maintenance management of healthcare facilities and hospital buildings to provide an organized literature review and identify gaps from the perspective of research and practice. Design/methodology/approach The paper categorizes the literature and adopts a review hierarchy according to maintenance management functions in hospital buildings. It explores the impact of those functions on the performance of maintenance activities in hospitals. Furthermore, it examines the role of information technology and automated decision support systems in facilitating hospital maintenance management functions and performance. Findings Literature on maintenance management in healthcare facilities and hospital buildings has so far been very limited. Recently published literature focusing on healthcare facilities management and its maintenance management functions is classified into various areas and sub-areas. The paper highlights gaps in the literature and suggests avenues for future research and improvements. Originality/value The paper contains a comprehensive listing of publications and their classifications according to various attributes. It will be useful for researchers, maintenance managers, practitioners and stakeholders concerned with facility management of hospital buildings.

Published

2017

23. A Review of Failure Prediction Models for Oil and Gas Pipelines

Author

Tarek Zayed, Fuzhan Nasiri, and Kimiya Zakikhani

Subjects

Petroleum engineering, business.industry, Mechanical Engineering, 0208 environmental biotechnology, Oil and gas pipelines, Fossil fuel, 0211 other engineering and technologies, 02 engineering and technology, Condition assessment, 020801 environmental engineering, Pipeline transport, Environmental science, Asset management, business, Predictive modelling, Reliability (statistics), 021101 geological & geomatics engineering, Civil and Structural Engineering

Abstract

Over 10,000 failures have occurred in US oil and gas pipelines in the past 15 years, highlighting the significance of safety measures for such facilities. Various models have been proposed ...

Published

2020

24. Modeling and analysis of renewable heat integration into non-domestic buildings - The case of biomass boilers: A whole life asset-supply chain management approach

Author

Fereshteh Mafakheri, Fariborz Haghighat, Dotun Adebanjo, and Fuzhan Nasiri

Subjects

GE, Supply chain management, T1, Renewable Energy, Sustainability and the Environment, business.industry, 020209 energy, Renewable heat, Biomass, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Forestry, 02 engineering and technology, 010501 environmental sciences, Environmental economics, 01 natural sciences, Electricity generation, Backup, 0202 electrical engineering, electronic engineering, information engineering, Asset management, Business, Asset (economics), Waste Management and Disposal, Agronomy and Crop Science, 0105 earth and related environmental sciences, Renewable Heat Incentive

Abstract

This study proposes a whole life asset-supply chain optimization model for integration of biomass boilers into non-domestic (non-residential) buildings, under a renewable heat incentive scheme in the UK. The proposed model aims at identifying the optimal energy generation capacities and schedules for biomass and backup boilers, along with the optimal levels of biomass ordering and storage. The sensitivity of these decisions are then analyzed subject to changes in source, types and pricing of biomass materials as well as the choice of technologies and their cost and operational performance criteria. The proposed model is validated by applying it to a case study scenario in the UK. The results indicate that a Renewable Heat Incentive scheme could incentivize the adoption of biomass boilers, with a 3 to 1 ratio for biomass and backup boilers’ utilization. As such, the findings from this study will be useful for industry managers, tasked with the decision of which biomass boiler system to utilize, considering the support from RHI. On the other hand, it is shown that RHI does not provide an encouragement for efficiency when it comes to the choice of biomass technologies and fuels. This presents itself as a major implication for the success and sustainability of the UK government’s renewable heat incentive scheme.

Published

2016

25. Urban water reuse: A triple bottom line assessment framework and review

Author

Fuzhan Nasiri, Jonathan Wilcox, Sarah Bell, and Md. Saifur Rahaman

Subjects

Renewable Energy, Sustainability and the Environment, business.industry, media_common.quotation_subject, Triple bottom line, 0208 environmental biotechnology, Geography, Planning and Development, Integrated urban water management, Water supply, Transportation, 02 engineering and technology, 010501 environmental sciences, Reuse, Greywater, 01 natural sciences, 020801 environmental engineering, Water scarcity, Service (economics), Sustainability, Water resource management, business, Environmental planning, 0105 earth and related environmental sciences, Civil and Structural Engineering, media_common

Abstract

Water reuse networks have been emerging globally for the last 50 years. This article reviews the economic, social and environmental issues related to implementing water reuse networks in cities. This is reflecting the fact that globally many cities are categorised as water scarce areas, where there is growing imbalance between water demand and availability. In this sense, there is a need for sustainable water supply solutions in the imminent future to provide and maintain service reliability, particularly in the face of climate change. To demonstrate the sustainability implications of water reuse practices, we review a case study in London, UK.

Published

2016

26. Operation Adaptation of Moving Bed Biomass Combustors under Various Waste Fuel Conditions

Author

Mohammad Hosseini Rahdar and Fuzhan Nasiri

Subjects

Control and Optimization, 020209 energy, Pellets, Energy Engineering and Power Technology, Climate change, 02 engineering and technology, lcsh:Technology, economic analysis, 020401 chemical engineering, 0202 electrical engineering, electronic engineering, information engineering, heat generation, moving bed biomass boiler, 0204 chemical engineering, Electrical and Electronic Engineering, Engineering (miscellaneous), Waste management, lcsh:T, Renewable Energy, Sustainability and the Environment, business.industry, LCA, Fossil fuel, Boiler (power generation), Internal rate of return, Life-cycle cost analysis, numerical modeling, Heating system, Heat generation, Environmental science, business, Energy (miscellaneous)

Abstract

This paper analyzes a moving grate biomass boiler operating with three alternative waste fuels, including biomass pellets, wood waste, and refuse-derived fuel (RDF) from a combination of thermal, economic, and environmental perspectives. The focus of this paper is on system functionality adaptation to retrofit the current systems operational conditions. A one-dimensional numerical bed model integrated with a black-box overbed model was developed to carefully investigate the fuel bed&rsquo, s thermal characteristics, as well as the boiler&rsquo, s output. According to the results, the system operates more efficiently under the biomass pellets feeding and annually generates 548 GJ heat, while it drops significantly in other scenarios. The system was economically evaluated based on a 25-year life cycle cost analysis. Subsequently, an internal rate of return (IRR) of 36% was calculated for biomass pellets, while the value reduced by 50% and 27% regarding wood waste and RDF, respectively. The fuel cost was identified as the main contributor to the total life cycle cost of the heating system, regardless of which feeding fuel was utilized. A long-term environmental impacts assessment of the boiler operation emerged, to show how plant-based fuels can significantly decrease the impacts of climate change that have originated from fossil fuel usage. The current study concludes that all the proposed scenarios are feasible to different degrees, and can extensively benefit a diverse set of energy sectors.

Published

2020

27. Maintenance workflow management in hospitals: An automated multi-agent facility management system

Author

Zahra Yousefli, Fuzhan Nasiri, and Osama Moselhi

Subjects

Computer science, business.industry, Process (engineering), 0211 other engineering and technologies, Response time, 02 engineering and technology, Building and Construction, Schedule (project management), Facility management, Workflow, Risk analysis (engineering), Unified Modeling Language, Mechanics of Materials, Computerized maintenance management system, 021105 building & construction, Architecture, 021108 energy, Safety, Risk, Reliability and Quality, business, computer, Maintenance management, Civil and Structural Engineering, computer.programming_language

Abstract

The complex, uncertain, and dynamic nature of the maintenance management environment is a source of concern to facility managers in hospitals due to the unexpected failure of building components, daily arrival of maintenance orders, and changes in schedule. In such circumstances, centralized systems become far-fetched because of their top-down approach which lacks a feedback mechanism and ignores new information. Therefore, to address any change, centralized systems have to be reformulated making it impractical, short-sighted, and problematic to adopt them in hospitals. As such, the use of centralized systems can lead to financial loss and dissatisfaction of patients. It, therefore, becomes necessary to establish a distributed maintenance management system to support the facility managers’ making-decision process. Multi-agent facility management system (MAFMS) was conceptually designed. This design employed Unified Modeling Language (UML) diagrams that illustrate the specific agents of the system and how these agents interact with each other. Maintenance data of a hospital building was used to initiate the multi-agent simulation for workflow management. The simulation results show the benefits of the proposed system, to reduce the response time to maintenance requests compared to the current maintenance system.

Published

2020

28. Development of a Model for Energy Management Decisions in Refurbishment of Buildings

Author

Farhad Amirifard and Fuzhan Nasiri

Subjects

Architectural engineering, Engineering, Development (topology), Energy management, business.industry, business, Construction engineering

Published

2017

29. Level of comfort and safety in railway transit

Author

Alireza Mohammadi, Luis Amador-Jimenez, and Fuzhan Nasiri

Subjects

Engineering, Index (economics), business.industry, Noise (signal processing), 020209 energy, media_common.quotation_subject, 02 engineering and technology, A-weighting, Transport engineering, Public transport, 0202 electrical engineering, electronic engineering, information engineering, Train, Quality (business), Set (psychology), business, Air quality index, media_common

Abstract

Canada's railway industry has invested more than $20 billion since 1999 to improve the safety of users as a top priority. Although the accident rates have decreased, the users' safety and comfort could still be impacted by vehicle's vibration, air quality, and noise levels. In this regard, comfort and safety are mutually related aspects; worsening of air quality could compromise users' safety from a respiratory health perspective. Further, noise, level of lighting, thermal condition and movement could contribute to hearing problems, visual impairments, bacteria growth, and nausea, respectively. Management of urban transit systems should ensure a convenient transit service with adequate levels of ride and quality (time and cost) as well as users' comfort and safety. This article proposes an approach for measurement of riders' comfort (as it relates to safety) in terms of humidity, temperature, vibration, concentration of CO2, noise, and lighting level based on a set of maximum thresholds identified with respect to public health guidelines. This enables the use of a weighting method to establish an overall network comfort level. Such an index can be used to direct the allocation of investments for improvement of comfort as well as ridership. A case study of several lines in Sydney trains network is presented to illustrate the applicability and usefulness of the proposed approach. Data were collected and analyzed using low-cost technologies such as smart phones and mobile sensors. The comfort factors are measured and reported per train line and then combined to generate an overall comfort index.

Published

2017

30. A multi-criteria assessment of the passengers’ level of comfort in urban railway rolling stock

Author

Fuzhan Nasiri, Luis Amador-Jimenez, and Alireza Mohammadi

Subjects

Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, 0211 other engineering and technologies, Transportation, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Transit service, Transport engineering, Travel time, Multi criteria, TRIPS architecture, Train, Customer satisfaction, Performance measurement, 021108 energy, Business, Stock (geology), 0105 earth and related environmental sciences, Civil and Structural Engineering

Abstract

Transit agencies concentrate their efforts to satisfy most commuters and convince them to abandon the use of the private car in daily trips, which is a key element in promoting environmentally sustainable cities. Travel time and cost have been widely investigated as travelers’ satisfaction factors, while human aspects such as comfort are mostly neglected. Management of urban transit systems should ensure a convenient transit service with adequate levels of ride and quality (time and cost) as well as users’ comfort, health and safety to achieve sustainable societies. This study proposes an approach to quantitatively measure railway riders’ comfort in terms of humidity, temperature, vibration, the concentration of CO2, noise, and lighting. Such indexes can be used to direct the allocation of investments for improvement of comfort in urban transit infrastructures as well as capture reality in demand prediction modeling. A case study of several lines in the Montreal metro network is presented to illustrate the applicability and usefulness of the proposed approach. The newer trains in the Montreal metro are an improvement over older trains when it comes to rider comfort; however, they could still be better, especially when it comes to auditory comfort.

Published

2020

31. Postgraduate research supervision at a distance: a review of challenges and strategies

Author

Fuzhan Nasiri and Fereshteh Mafakheri

Subjects

Supervisor, Higher education, Process (engineering), business.industry, Management science, Distance education, Information technology, Education, Engineering ethics, Sociology, Postgraduate research, business, Student research, Set (psychology)

Abstract

This article reviews the literature on supervisory elements in distance postgraduate research programmes leading to a master's or doctoral degree. The authors first identify and review the main supervisory challenges from the perspectives of both supervisor and supervisee. This paves the path to investigate and categorise the strategies that have been put into practice in order to address these challenges. This is a first attempt to provide a structured categorisation of the strategies and solutions tailored to address these challenges. Through linking the challenges to strategies, the authors will emphasise the elements of a successful distance postgraduate research supervision experience with a set of guidelines on how to improve the overall learning in this process. The aim of this paper is to conclude by summarising the lessons learned from distance postgraduate research supervision practices and to identify the areas in need of further research.

Published

2014

32. Modeling of biomass-to-energy supply chain operations: Applications, challenges and research directions

Author

Fuzhan Nasiri and Fereshteh Mafakheri

Subjects

business.industry, Supply chain, Fossil fuel, Biomass, Provisioning, Management, Monitoring, Policy and Law, Environmental economics, Agricultural economics, Renewable energy, General Energy, Biofuel, Bioenergy, Economics, business, Dependency (project management)

Abstract

Reducing dependency on fossil fuels and mitigating their environmental impacts are among the most promising aspects of utilizing renewable energy sources. The availability of various biomass resources has made it an appealing source of renewable energy. Given the variability of supply and sources of biomass, supply chains play an important role in the efficient provisioning of biomass resources for energy production. This paper provides a comprehensive review and classification of the excising literature in modeling of biomass supply chain operations while linking them to the wider strategic challenges and issues with the design, planning and management of biomass supply chains. On that basis, we will present an analysis of the existing gaps and the potential future directions for research in modeling of biomass supply chain operations.

Published

2014

33. Water Reuse Trajectories

Author

Jonathan Wilcox, Fuzhan Nasiri, and Sarah Bell

Subjects

business.industry, media_common.quotation_subject, Environmental resource management, Reuse, Water scarcity, Water infrastructure, Potable water, Geography, Toilet flushing, Public acceptance, Urban water, business, Function (engineering), Environmental planning, media_common

Abstract

Water reuse is an obvious and important response to water scarcity in cities. It takes many forms – potable and non-potable, centralised and decentralised, direct and indirect, and planned and unplanned. How different forms of reuse emerge and stabilise depends on technical, economic, social, environmental and political factors, and specific local conditions. This chapter reviews trends in potable and non-potable reuse, including international examples of urban water reuse. The analysis shows that public acceptance, regulation, proven technology and support for innovation are needed to provide the conditions for water reuse systems to function. The diversity of approaches to water reuse in cities indicates that urban water infrastructure is diverging from the twentieth century ideal of a centralised, universal supply of potable water. The different forms of water reuse present specific challenges for regulating and governing water infrastructure that require reform of existing arrangements and new institutions and management strategies.

Published

2016

34. Assessment of building-integrated green technologies: A review and case study on applications of Multi-Criteria Decision Making (MCDM) method

Author

Ljiljana Marjanovic-Halburd, Jin Si, Fuzhan Nasiri, and Sarah Bell

Subjects

Engineering, Renewable Energy, Sustainability and the Environment, business.industry, Management science, 020209 energy, Geography, Planning and Development, Analytic hierarchy process, Transportation, 02 engineering and technology, Technology assessment, Multiple-criteria decision analysis, Climate change mitigation, Ranking, Risk analysis (engineering), Sustainability, 0202 electrical engineering, electronic engineering, information engineering, Retrofitting, business, Civil and Structural Engineering, Efficient energy use

Abstract

Retrofitting existing buildings with appropriate green technologies is an important element of strategies to mitigate climate change. The selection of green technologies can be a challenging task, where multiple criteria exist and interrelate. However, it is still common for decisions to be based on a single criterion, such as energy efficiency or cost. This paper aims to evaluate the application of Multi-Criteria Decision Making (MCDM) methods to the selection of green technologies for retrofitting to existing buildings. The paper begins with a review of MCDM methods and the use of these techniques for selecting technologies to retrofit existing buildings. The applicability of Analytical Hierarchy Process (AHP), a widely used MCDM method, is demonstrated through a case study of a building that is part of a university estate. The findings show that AHP can help to formulate the problem, and facilitate the assessment and ranking of retrofitting measures when multiple criteria are jointly considered. We have shown that by considering environmental and economic criteria, control technologies such as variable speed drives in air handling units, rank most highly in this case. It has also been suggested that social criteria, such as occupant satisfaction, should also be considered as part of the sustainability agenda, although this can be more difficult to achieve than consideration of environmental and economic criteria, which are more readily characterised using quantitative data. We conclude by proposing an integrated green technology assessment and selection framework, which is applicable to existing buildings.

Published

2016

35. Measuring the Embodied Energy in Drinking Water Supply Systems: A Case Study in The Great Lakes Region

Author

Fuzhan Nasiri, Qiong Zhang, Julie B. Zimmerman, Weiwei Mo, and Matthew J. Eckelman

Subjects

Conservation of Natural Resources, Energy-Generating Resources, Michigan, business.industry, Water supply, General Chemistry, Energy consumption, Models, Theoretical, Natural resource, Water Supply, Environmental protection, Facility Design and Construction, Sustainability, Carbon footprint, Environmental Chemistry, Environmental science, Water treatment, business, Water resource management, Embodied energy, Life-cycle assessment, Carbon Footprint, Environmental Monitoring

Abstract

A sustainable supply of both energy and water is critical to long-term national security, effective climate policy, natural resource sustainability, and social wellbeing. These two critical resources are inextricably and reciprocally linked; the production of energy requires large volumes of water, while the treatment and distribution of water is also significantly dependent upon energy. In this paper, a hybrid analysis approach is proposed to estimate embodied energy and to perform a structural path analysis of drinking water supply systems. The applicability of this approach is then tested through a case study of a large municipal water utility (city of Kalamazoo) in the Great Lakes region to provide insights on the issues of water-energy pricing and carbon footprints. Kalamazoo drinking water requires approximately 9.2 MJ/m(3) of energy to produce, 30% of which is associated with indirect inputs such as system construction and treatment chemicals.

Published

2010

36. Renewable Portfolio Standard Policy: A Game-theoretic Analysis

Author

Fuzhan Nasiri and Georges Zaccour

Subjects

021103 operations research, business.industry, 0211 other engineering and technologies, 02 engineering and technology, Outcome (game theory), Energy policy, Computer Science Applications, Renewable energy, Microeconomics, Renewable portfolio standard, Signal Processing, 0202 electrical engineering, electronic engineering, information engineering, Economics, 020201 artificial intelligence & image processing, Electricity, Special case, business, Constraint (mathematics), Game theory, Information Systems

Abstract

This study proposes a game theoretic approach toward the analysis of renewable portfolio standard policy (RPS), which is one of the main forces behind promotion of the use of renewable sources for electricity generation. The peculiar attribute of an RPS system, in tracking the compliance of individual profit-maximizer electricity producers with a collective target (share) for renewable sources, resembles a coupled constraint game. After presenting a generic game theoretic model for an RPS system, a special case study will be explored, to pave the path for an analytical outcome. This is accompanied by a result analysis section to investigate the impact of key parameters on the equilibrium, leading to recommendations and future research avenues.

Published

2010

37. An exploratory game-theoretic analysis of biomass electricity generation supply chain

Author

Fuzhan Nasiri and Georges Zaccour

Subjects

TheoryofComputation_MISCELLANEOUS, Computer Science::Computer Science and Game Theory, Sequential game, business.industry, Supply chain, ComputingMilieux_PERSONALCOMPUTING, TheoryofComputation_GENERAL, Management, Monitoring, Policy and Law, Environmental economics, symbols.namesake, General Energy, Electricity generation, Incentive, Nash equilibrium, Economics, symbols, Electricity, business, Energy economics, Mathematical economics, Game theory

Abstract

This study proposes a game-theoretic approach to model and analyze the process of utilizing biomass for power generation considering three players: distributor, facility developer, and participating farmer. We characterize the Nash equilibrium of the sequential game and discuss its features. A special attention is devoted to the analysis of the impact of incentives and initial target on the equilibrium, in which the biomass is part of electricity production.

Published

2009

38. Environmental Policy Analysis in Freight Transportation Planning: An Optimality Assessment Approach

Author

Guo H. Huang, Anastassia Manuilova, and Fuzhan Nasiri

Subjects

Engineering, Transportation planning, Environmental Engineering, Index (economics), Operations research, Mathematical model, Renewable Energy, Sustainability and the Environment, business.industry, Management science, Geography, Planning and Development, Fuzzy set, Transportation, Multi-objective optimization, Fuzzy logic, Conflicting objectives, Automotive Engineering, Environmental policy, business, Civil and Structural Engineering

Abstract

In this study, an optimality assessment framework is proposed to assist in freight transportation planning with environmental considerations. In doing so, a multiple-objective optimization model with cost and environmental objectives is constructed. Because of the fact that optimization with several conflicting objectives can only provide solutions with degrees of optimality, in this study, alternative solutions of model are examined in terms of a decision-maker's targets along with local and global environmental requirements. In such an optimality assessment, fuzzy set theory is applied to interpret the satisfaction levels of objectives by using the concept of fuzzy membership function to generate the optimality index of alternative solutions. To illustrate the applicability of the proposed approach, a real-world case study will be presented.

Published

2009

39. Project agility assessment: an integrated decision analysis approach

Author

Fereshteh Mafakheri, Fuzhan Nasiri, and Mahmood Mousavi

Subjects

Engineering, Knowledge management, OPM3, business.industry, Strategy and Management, Management Science and Operations Research, Industrial and Manufacturing Engineering, Change management (ITSM), Computer Science Applications, Project planning, Risk analysis (engineering), Extreme project management, Project portfolio management, Project management, business, Software project management, Project management triangle

Abstract

Agility is the ability of a project to respond to a changing environment effectively. This may include the capability of a project to be adapted to the dynamism that exists in the stakeholders' needs, technological changes, etc. To assure such a capability, it is necessary to assess the extent of projects' adaptability to change. This could be done by expressing the agility in terms of some quantifiable parameters such as size of the project's organisation, levels of expertise, etc. However, there are uncertainties embedded in measurement of such parameters caused by imprecision and lack of well-defined information, which cannot be well treated by conventional assessment approaches. To address such a complexity, in this article, a decision aid model using fuzzy set theory is proposed for agility assessment of projects. The applicability of the proposed model will be demonstrated by a case study in software development project management.

Published

2008

40. Integrated Capacity Planning for Electricity Generation: A Fuzzy Environmental Policy Analysis Approach

Author

Guohe Huang and Fuzhan Nasiri

Subjects

Engineering, Operations research, Linear programming, business.industry, General Chemical Engineering, Fuzzy set, Energy Engineering and Power Technology, Plan (drawing), Fuzzy logic, Fuel Technology, Electricity generation, Capacity planning, Energy intensity, Operations management, Electric power industry, business

Abstract

This study proposes an integrated model for capacity planning in electricity generation. It utilizes a multiple-criteria linear programming to incorporate cost and environmental objectives into the planning. To treat the uncertainties embedded in definition of model parameters, the concept of decision-maker degree of optimism will be used. Optimization of the model provides different planning scenarios. To determine the best compromise plan, a post-optimization assessment based on fuzzy set theory concepts is developed. The proposed methodology is employed for a medium-term capacity planning in Canada's electricity generation sector. The results approve a major capacity growth for natural gas facilities accompanied by retirement of most coal-burning facilities.

Published

2008

41. A fuzzy decision aid model for environmental performance assessment in waste recycling

Author

Fuzhan Nasiri and Gordon Huang

Subjects

Engineering, Decision support system, Environmental Engineering, Relation (database), Operations research, business.industry, Process (engineering), Ecological Modeling, Fuzzy set, Fuzzy logic, Unit (housing), Container (abstract data type), business, Unit cost, Software

Abstract

This study introduces a methodological framework for environmental performance assessment of waste recycling programs. We develop two categories of indicators: the efficiency indicators that compare the environmental achievements of a program with the required expenditures (benefits per unit cost), and the effectiveness indicators that compare the environmental benefits of a program with the amount of generated wastes (benefits per unit waste). Aggregation of these indicators, in relation with their associated criticalities, will give us a number of environmental performance indices to represent the status of the environmental performance. This score-based assessment has two major advantages: it takes complex scientific information and synthesizes it in a way that makes it easily understandable for non-experts while in comparison with other environmental performance assessment methods it is not computationally intensive. In this aggregation, the importance values (criticalities) are often expert based uncertain judgments, which are defined according to the objective of performance assessment. Therefore, a fuzzy multiple attribute analysis can be employed to express these judgments by fuzzy sets and to formulate the weighted aggregation process. For case study, we have investigated the environmental performance of the provincial beverage container recycling programs in Canada, which illustrates the applicability of the proposed methodology.

Published

2008

42. Project Delivery System Selection under Uncertainty: Multicriteria Multilevel Decision Aid Model

Author

Dominik Slezak, Liming Dai, Fereshteh Mafakheri, and Fuzhan Nasiri

Subjects

Engineering, Decision support system, Operations research, Management science, business.industry, Integrated project delivery, Strategy and Management, General Engineering, Analytic hierarchy process, Interval (mathematics), Management Science and Operations Research, Multiple-criteria decision analysis, Industrial relations, Rough set, Project management, business, Selection (genetic algorithm)

Abstract

Selecting an optimal project delivery system is a critical task that owners should do to ensure project success. This selection is a complex decision-making process. The complexity arises from the uncertain or not well-defined parameters and/or the multiple criteria structure of such decisions. In this study, a decision aid model using the analytical hierarchy process (AHP) coupled with rough approximation concepts is developed to assist the owners. The selection criteria are determined by studying a number of benchmarks. The model ranks the alternative delivery systems by considering both benchmark results and owner's opinion. In interval AHP, an optimization procedure is performed via obtaining the upper and the lower linear programming models to determine the interval priorities for alternative project delivery systems. In cases having incomparable alternatives, which is the most likely case in uncertain decision making, the model uses rough set-based measures to reduce the number of decision criteria to a subset, which is able to fully rank the alternatives. To illustrate the applicability and usefulness of this methodology, a real world case study will be demonstrated.

Published

2007

43. Water Quality Index: A Fuzzy River-Pollution Decision Support Expert System

Author

Fuzhan Nasiri, Gordon Huang, Imran Maqsood, and Norma Fuller

Subjects

Engineering, Decision support system, business.industry, Management science, Process (engineering), media_common.quotation_subject, Geography, Planning and Development, Fuzzy set, Management, Monitoring, Policy and Law, computer.software_genre, Fuzzy logic, Expert system, Water resources, Risk analysis (engineering), Quality (business), Water quality, business, computer, Water Science and Technology, Civil and Structural Engineering, media_common

Abstract

Water quality management policies, which are proposed to prevent, control, or treat environmental problems related to quality of water, are broad and complex issues. We have various types of water resources, different water uses, and a lot of decision parameters with several levels of decision makers involved. Moreover, there are a lot of strategies and technologies available to be applied for water quality management and so environmental decision makers are required to evaluate and prioritize them in order to choose the best possible plan for each particular problem. To provide a comprehensive but easy to use tool in the assessment and evaluation of water quality policies, the concept of water quality index (WQI) has been developed. Due to the abovementioned complexities, to get this index, there is a need for a methodology to not only structure and identify information relevant to the problem but also to help users reach a decision. Designing a multiple-attribute decision support expert system, which makes expert knowledge available to nonexpert users, can do this. In doing so, we may encounter qualitative or linguistic assessments in the index making process. Thus, fuzzy set theory can be applied to recognize this inherent fuzziness of such a process. Briefly, in this study we propose a fuzzy multiple-attribute decision support expert system to compute the water quality index and to provide an outline for the prioritization of alternative plans based on the amount of improvements in WQI. At the end, applicability and usefulness of the proposed methodology is revealed by a case study.

Published

2007

44. Higher Education Lecturing and Humor: From Perspectives to Strategies

Author

Fuzhan Nasiri and Fereshteh Mafakheri

Subjects

ComputingMilieux_THECOMPUTINGPROFESSION, Higher education, business.industry, Teaching method, Perspective (graphical), ComputingMilieux_PERSONALCOMPUTING, GeneralLiterature_MISCELLANEOUS, Learning experience, Categorization, Pedagogy, Active learning, ComputingMilieux_COMPUTERSANDEDUCATION, Set (psychology), Psychology, business

Abstract

This article will review the issues surrounding the use of humor as an informal teaching method in higher education lecturing. The impact and usefulness of humor, from both a teacher’s and a student’s perspective, will be investigated. The aim is to classify the challenges and limitations of using humor in classrooms and to investigate and categorize the strategies that have been put into practice in order to approach humor in lecturing. This could serve as a set of guidelines on if/how humor can be used to improve the overall learning experience in classrooms.

Published

2015

45. Qanat water supply systems: a revisit of sustainability perspectives

Author

Fuzhan Nasiri and Mohammad Saleh Mafakheri

Subjects

Geography, business.industry, Ancient technology, Qanat, Environmental resource management, Sustainability, Groundwater management, Water supply, Rural area, business, Arid, Groundwater

Abstract

As declared by UNESCO, Qanats are considered as a great human heritage. For many centuries, they presented a rational way of groundwater management in arid rural areas. This paper aims at revisiting this ancient water supply system reviewing its structure and characteristics including construction and operational issues. On that basis, we highlight some key sustainability perspectives related to this ancient water supply practice. We advocate that this ancient technology should not only be protected as a great human heritage but also be reconsidered as a sustainable way of groundwater management in arid/semi-arid regions.

Published

2015

46. Prioritizing groundwater remediation policies: a fuzzy compatibility analysis decision aid

Author

Fuzhan Nasiri, Norma Fuller, and Gordon Huang

Subjects

Engineering, Decision support system, Environmental Engineering, Environmental remediation, Groundwater remediation, Fuzzy set, Management, Monitoring, Policy and Law, Fuzzy logic, Risk Assessment, Decision Support Techniques, Fuzzy Logic, Water Supply, Policy Making, Waste Management and Disposal, Geography, business.industry, Environmental engineering, Uncertainty, General Medicine, Models, Theoretical, Water resources, Risk analysis (engineering), Compatibility (mechanics), business, Environmental Pollution, Decision analysis, Environmental Monitoring

Abstract

The implementation of groundwater remediation strategies in contaminated areas includes not only a cost-benefit analysis and an environmental risk assessment but also another type of study called compatibility analysis. A compatibility analysis targets the interactions between remediation technologies and site characteristics, such as the types of active contaminants and their concentrations, soil composition and geological features, etc. The purpose of this analysis is to identify the most compatible remediation plan for the contaminated site. In this paper, we introduce a decision support system for the prioritization of remediation plans based on their estimated compatibility index. As this model receives data in terms of linguistic judgments and experts' opinions, we use fuzzy sets theory to deal with these uncertainties. First, we break down the concept of compatibility into the measurable factors. Then by using a multiple-attribute decision-making (MADM) outline, we compute a factorial, regional and overall compatibility indicator for each plan. Finally, by comparing these generated indicators, we rank the remediation policies.

Published

2004