http://assignment-partner.com/ .That's a sample paper - essay / paper on the topic "Construction logistics" created by our writers!
Disclaimer: The paper above have been completed for actual clients. We have acclaimed personal permission from the customers to post it.
Construction is required to create attractive, sustainable and economically viable cities. Inner city developments are a common feature within many urban areas. When activities at and around construction sites are not managed effectively, they can negatively impact the surrounding areas. A large share of the freight traffic in cities is related to construction. Evaluation of recent urban construction projects introducing logistics concepts by construction companies shows that implementing alternative city logistics concepts can significantly reduce total logistic costs, urban congestion and improve productivity. The ‘ground rules’ for smarter and cleaner construction logistics in urban areas are set during the tendering process. This research has developed a framework for ‘logistics quality’ to be used as a quality criterion for EMAT (Economically Most Advantageous Tender) procedures to support tendering construction projects by both public and private clients.
The introduction gives a brief outline of research in the field of CSCM and its current status. This is followed by a review of literature focused on supply chain performance for process-based industry, project-based industry and project-based construction industry to highlight critical questions that elude managers of CSCM for representing, analysing and configuring supply chains.
The research methodology adopted in this study is applying qualitative approach of triangulation involving foundational research and Soft Systems Methodology for validating a system of complex CSC. The study explores important phases of CSC, major problems, complexities and linkages.
The concurrent viewpoints about various dimensions of CSCM have been put forth in this study in terms of several characteristics in order to provide a constitutional definition. The basic argument is to evolve a balanced normative theory that can deal explicitly both with the contents and contexts of the system and can reorient professionals towards dealing with the system more effectively to attain the socio-economic goals of the emerging era of competition and collaboration.
Construction is required to create attractive, sustainable and economically viable cities. Inner city developments are a common feature within many urban areas. When activities at and around construction sites are not managed effectively, they can negatively impact the surrounding areas. A large share of the freight traffic in cities is related to construction. Evaluation of recent urban construction projects introducing logistics concepts by construction companies shows that implementing alternative city logistics concepts can significantly reduce total logistic costs, urban congestion and improve productivity. The ‘ground rules’ for smarter and cleaner construction logistics in urban areas are set during the tendering process. This research has developed a framework for ‘logistics quality’ to be used as a quality criterion for EMAT (Economically Most Advantageous Tender) procedures to support tendering construction projects by both public and private clients.
The introduction gives a brief outline of research in the field of CSCM and its current status. This is followed by a review of literature focused on supply chain performance for process-based industry, project-based industry and project-based construction industry to highlight critical questions that elude managers of CSCM for representing, analysing and configuring supply chains.
The research methodology adopted in this study is applying qualitative approach of triangulation involving foundational research and Soft Systems Methodology for validating a system of complex CSC. The study explores important phases of CSC, major problems, complexities and linkages.
The concurrent viewpoints about various dimensions of CSCM have been put forth in this study in terms of several characteristics in order to provide a constitutional definition. The basic argument is to evolve a balanced normative theory that can deal explicitly both with the contents and contexts of the system and can reorient professionals towards dealing with the system more effectively to attain the socio-economic goals of the emerging era of competition and collaboration.
Vskills certified logistics and supply chain management reading materialVskills
The Vskills Certification Logistics and Supply chain management sample material covers the following concepts.
I. Introduction to Logistics
I.1 Interface between Logistics Manufacturing
I.2 Logistics: Manufacturing issues in Customer Service.
I.3 Production scheduling
I.4 Interface between Logistics Marketing
http://www.vskills.in/certification/Logistics-and-Supply-Chain-Management/Certified-Logistics-and-Supply-Chain-Professional
Logistics management is the part of supply chain management that plans, implements, and controls the efficient, effective forward, and reverse flow and storage of goods, services, and related information between the point of origin and the point of consumption in order to meet customer's requirements
Supply Chain Management vs Logistics ManagementAnupam Kumar
This presentation explores the difference between logistics and supply chain management while tracking the development of the subject of distribution management, its progression to logistics management and its overall integration leading to the development of the subject of supply chain management. This presentation is aimed at explaining the transition of an organization from one stage of operations management to the next. It also explains the increase in the scope of operations management with the advent of the concept of supply chain management or simply SCM.
This presentation is suited for MBA, PGDM or BBA level students of business management and can be used for class lectures, class notes or class discussions. It will also give an idea to the budding entrepreneurs from taking their businesses from one stage of operations management to the next.
Hidrotam has been realizing sheet metal processing line R&D projects consisting of the combinations of rollforming, bending, punching, welding and cutting machines for Automotive, House Appliances, Logistics, Energy and Construction sectors with efficient turn-key solutions.
VISIOAXESS a constrction logisitic management web based applicationStephen Chekroun
Visioaxess is a web-based dynamic logistic project-management tool, shared informations and tasks to keep your team organized and makes your project management very easy.
It empowers everyone on your team management of your building site, GC, subcontractor and client to do great things and be informed about everything about your project in real time.
First Florence Logistics Center - Construction Update - December 2016Patrick Sweeney
First Florence Logistics Center is on target for delivery by year end. This 577,200 SF cross docked distribution is available for lease. Eligible for PILOT and GROW NJ tax incentives.
Vskills certified logistics and supply chain management reading materialVskills
The Vskills Certification Logistics and Supply chain management sample material covers the following concepts.
I. Introduction to Logistics
I.1 Interface between Logistics Manufacturing
I.2 Logistics: Manufacturing issues in Customer Service.
I.3 Production scheduling
I.4 Interface between Logistics Marketing
http://www.vskills.in/certification/Logistics-and-Supply-Chain-Management/Certified-Logistics-and-Supply-Chain-Professional
Logistics management is the part of supply chain management that plans, implements, and controls the efficient, effective forward, and reverse flow and storage of goods, services, and related information between the point of origin and the point of consumption in order to meet customer's requirements
Supply Chain Management vs Logistics ManagementAnupam Kumar
This presentation explores the difference between logistics and supply chain management while tracking the development of the subject of distribution management, its progression to logistics management and its overall integration leading to the development of the subject of supply chain management. This presentation is aimed at explaining the transition of an organization from one stage of operations management to the next. It also explains the increase in the scope of operations management with the advent of the concept of supply chain management or simply SCM.
This presentation is suited for MBA, PGDM or BBA level students of business management and can be used for class lectures, class notes or class discussions. It will also give an idea to the budding entrepreneurs from taking their businesses from one stage of operations management to the next.
Hidrotam has been realizing sheet metal processing line R&D projects consisting of the combinations of rollforming, bending, punching, welding and cutting machines for Automotive, House Appliances, Logistics, Energy and Construction sectors with efficient turn-key solutions.
VISIOAXESS a constrction logisitic management web based applicationStephen Chekroun
Visioaxess is a web-based dynamic logistic project-management tool, shared informations and tasks to keep your team organized and makes your project management very easy.
It empowers everyone on your team management of your building site, GC, subcontractor and client to do great things and be informed about everything about your project in real time.
First Florence Logistics Center - Construction Update - December 2016Patrick Sweeney
First Florence Logistics Center is on target for delivery by year end. This 577,200 SF cross docked distribution is available for lease. Eligible for PILOT and GROW NJ tax incentives.
In his keynote presentation at the 2010 Lean Logistcs Summit, Robert Martichenko, co-author of the Building a Lean Fulfillment Stream workbook, delineated the elements of a lean supply chain
The Top Skills That Can Get You Hired in 2017LinkedIn
We analyzed all the recruiting activity on LinkedIn this year and identified the Top Skills employers seek. Starting Oct 24, learn these skills and much more for free during the Week of Learning.
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MANAGING AND CONTROLLING PROJECT CHANGES IN POST-CONFLICT COUNTRIES: THE CA...ijmvsc
Ineffective change management and control practices in donor and government-funded projects
served as the major impediment to meeting project completion timelines and possible project failures.
Project management professionals globally have attributed multiple requests for cost, scope, or
schedule changes to classical project management issues, including cost overruns, schedule overruns,
and scope creeps when managing traditional-driven projects. In post-conflict countries, including
Liberia, multiple change requests or variation orders are prevalent in various types of projects often
driven by political interests, corruption, and other fraudulent practices. In this paper, the author
examined some critical change management and control issues, especially regarding little or
non-existent institutional framework for change control as well as the lack of a structural and
systematic approach for managing and controlling changes during project implementation. To
mitigate these situations, the author proffered recommendations aimed at helping project
organizations minimize budget and schedule overruns due to scope creep as well as project delays
resulting from unregulated change management and control practices in Liberia.
MANAGING AND CONTROLLING PROJECT CHANGES IN POST-CONFLICT COUNTRIES: THE CASE...ijmvsc
Ineffective change management and control practices in donor and government-funded projects
served as the major impediment to meeting project completion timelines and possible project failures.
Project management professionals globally have attributed multiple requests for cost, scope, or
schedule changes to classical project management issues, including cost overruns, schedule overruns,
and scope creeps when managing traditional-driven projects. In post-conflict countries, including
Liberia, multiple change requests or variation orders are prevalent in various types of projects often
driven by political interests, corruption, and other fraudulent practices. In this paper, the author
examined some critical change management and control issues, especially regarding little or
non-existent institutional framework for change control as well as the lack of a structural and
systematic approach for managing and controlling changes during project implementation. To
mitigate these situations, the author proffered recommendations aimed at helping project
organizations minimize budget and schedule overruns due to scope creep as well as project delays
resulting from unregulated change management and control practices in Liberia.
The building construction industry faces challenges, such as increasing project complexity and scope requirements, but shorter deadlines. Additionally, economic uncertainty and rising business competition with a subsequent decrease in profit margins for the industry demands the development of new approaches to construction management. However, the building construction sector relies on practices based on intuition and experience, overlooking the dynamics of its production system. Furthermore, researchers maintain that the construction industry has no history of the application of mathematical approaches to model and manage production. Much work has been carried out on how manufacturing practices apply to construction projects, mostly lean principles. Nevertheless, there has been little research to understand the fundamental mechanisms of production in construction. This study develops an in-depth literature review to examine the existing knowledge about production models and their characteristics in order to establish a foundation for dynamic production systems management in construction. As a result, a theoretical framework is proposed, which will be instrumental in the future development of mathematical production models aimed at predicting the performance and behaviour of dynamic project-based systems in construction.
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The peer-reviewed International Journal of Engineering Inventions (IJEI) is started with a mission to encourage contribution to research in Science and Technology. Encourage and motivate researchers in challenging areas of Sciences and Technology.
Cost Overrun Causes Related to the Design Phase in the Egyptian Construction ...World-Academic Journal
Cost overrun is one of the most common problems that threaten any construction project. As the Design phase is responsible for many critical decisions, many of cost overrun causes are related to such phase. This paper aims to identify the most significant causes of cost overrun related to the design phase in the Egyptian construction industry from the point of view of owners, consultant, designers, project managers and contractors. A list of cost overrun causes related to the design phase collected through an extensive literature review, main causes were adapted to the Egyptian construction industry through seven semi-structured interviews. The resultant list was submitted to a questionnaire survey for the impact and frequency quantitative evaluation. the results of the research is expected to help the participants in the design phase to develop more optimized design and avoid the most usual flaws that could led to cost overruns.
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Normal Labour/ Stages of Labour/ Mechanism of LabourWasim Ak
Normal labor is also termed spontaneous labor, defined as the natural physiological process through which the fetus, placenta, and membranes are expelled from the uterus through the birth canal at term (37 to 42 weeks
June 3, 2024 Anti-Semitism Letter Sent to MIT President Kornbluth and MIT Cor...Levi Shapiro
Letter from the Congress of the United States regarding Anti-Semitism sent June 3rd to MIT President Sally Kornbluth, MIT Corp Chair, Mark Gorenberg
Dear Dr. Kornbluth and Mr. Gorenberg,
The US House of Representatives is deeply concerned by ongoing and pervasive acts of antisemitic
harassment and intimidation at the Massachusetts Institute of Technology (MIT). Failing to act decisively to ensure a safe learning environment for all students would be a grave dereliction of your responsibilities as President of MIT and Chair of the MIT Corporation.
This Congress will not stand idly by and allow an environment hostile to Jewish students to persist. The House believes that your institution is in violation of Title VI of the Civil Rights Act, and the inability or
unwillingness to rectify this violation through action requires accountability.
Postsecondary education is a unique opportunity for students to learn and have their ideas and beliefs challenged. However, universities receiving hundreds of millions of federal funds annually have denied
students that opportunity and have been hijacked to become venues for the promotion of terrorism, antisemitic harassment and intimidation, unlawful encampments, and in some cases, assaults and riots.
The House of Representatives will not countenance the use of federal funds to indoctrinate students into hateful, antisemitic, anti-American supporters of terrorism. Investigations into campus antisemitism by the Committee on Education and the Workforce and the Committee on Ways and Means have been expanded into a Congress-wide probe across all relevant jurisdictions to address this national crisis. The undersigned Committees will conduct oversight into the use of federal funds at MIT and its learning environment under authorities granted to each Committee.
• The Committee on Education and the Workforce has been investigating your institution since December 7, 2023. The Committee has broad jurisdiction over postsecondary education, including its compliance with Title VI of the Civil Rights Act, campus safety concerns over disruptions to the learning environment, and the awarding of federal student aid under the Higher Education Act.
• The Committee on Oversight and Accountability is investigating the sources of funding and other support flowing to groups espousing pro-Hamas propaganda and engaged in antisemitic harassment and intimidation of students. The Committee on Oversight and Accountability is the principal oversight committee of the US House of Representatives and has broad authority to investigate “any matter” at “any time” under House Rule X.
• The Committee on Ways and Means has been investigating several universities since November 15, 2023, when the Committee held a hearing entitled From Ivory Towers to Dark Corners: Investigating the Nexus Between Antisemitism, Tax-Exempt Universities, and Terror Financing. The Committee followed the hearing with letters to those institutions on January 10, 202
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http://sandymillin.wordpress.com/iateflwebinar2024
Published classroom materials form the basis of syllabuses, drive teacher professional development, and have a potentially huge influence on learners, teachers and education systems. All teachers also create their own materials, whether a few sentences on a blackboard, a highly-structured fully-realised online course, or anything in between. Despite this, the knowledge and skills needed to create effective language learning materials are rarely part of teacher training, and are mostly learnt by trial and error.
Knowledge and skills frameworks, generally called competency frameworks, for ELT teachers, trainers and managers have existed for a few years now. However, until I created one for my MA dissertation, there wasn’t one drawing together what we need to know and do to be able to effectively produce language learning materials.
This webinar will introduce you to my framework, highlighting the key competencies I identified from my research. It will also show how anybody involved in language teaching (any language, not just English!), teacher training, managing schools or developing language learning materials can benefit from using the framework.
2024.06.01 Introducing a competency framework for languag learning materials ...
Construction logistics
1. Running head: CONSTRUCTION LOGISTICS 1
Construction Logistics
An Assignment Submitted by
Name of Student
Name of Establishment
Class XXXX, Section XXXX, Spring 2012
2. CONSTRUCTION LOGISTICS 2
Construction Logistics
Construction logistics plays a crucial role in ensuring production process effectiveness
and overall industry success. Today, it is known that production process in construction (like in
any other industry) should be integrated in order to avoid excess costs and waste and ensure
effective collaboration between different participants within supply chain to meet time, cost,
quality, and customer requirements. On the other hand, problems that existed twenty years ago
still exist, as older approaches to construction supply chain management are used. However,
approaches to construction logistics and operational process are being developed to provide
opportunities for construction industry improvement. This can be seen through the report
“Application of the New Production Philosophy to Construction” by Koskela (1992) and
“Rethinking Construction” Report by Egan (1998), as well as “Improving Construction
Logistics” – a report of the Strategic Forum for Construction (SFfC) (2005).
According to Koskela’s report, the nature of current production processes in construction
is strongly connected to the use of conversion model and, therefore, focuses on the process of
transformation of an input into an output. So, its major components include inputs (first of all,
labor, construction materials, financial resources, and information), conversion process, and
outputs (i.e. a certain building). The value of the process output is associated with the costs of its
inputs and, therefore, is considered to be not very important. Herewith, the whole process of
construction and building is divided into certain elements or sub-processes, which are viewed
separately, rather than as a single flow. Such an approach disintegrates the whole project. This is
accompanied by the use of a hierarchical organizational structure (Koskela, 1992, pp. 12-13, 30).
These features create some specific problems and influence the nature of the production
process in construction industry. For example, such managerial concepts as sequential approach
3. CONSTRUCTION LOGISTICS 3
to project realization, lack of quality considerations (including continuous quality improvement),
segmented control, and CPM network methods violate the principles of flow process design and
improvement and thus deteriorate production flows and increase the number of non-value-adding
activities. The sequential approach is characterized by the following features: involving few or
no design iterations, ignoring subsequent phases’ constraints, providing insufficient feedback,
and lacking leadership and responsibility. This leads to suboptimal solutions in production
process, poor operability and constructability, numerous change orders, and lack of improvement
and innovation. Meanwhile, segmented control results in multiple handling and slower error
correction, as well as the lack of overall process and flow control. Also, traditional approach to
network planning is unable to plan flows of teams or material flows consistently and so, creates
process disruptions and disconnects. Therefore, construction logistics lacks integrity and
systemic consistency. Other problems include neglect of proper project and construction
planning, management of materials, and management of work flows. Also, production process in
construction is characterized by considerable waste (including quality, value, and safety), which
is invisible and inactionable, and loss of quality and product value (Koskela, 1992, pp. 32-36).
These are general features of production nature in construction, which are connected to
the flow problems caused by the use of conventional approach to operational processes. These
features can be found in other industries too. Still, there are some specific features of production
process, which are characteristic only to construction industry and are caused by its peculiarities.
Generally, they include such aspects of construction logistics as on-site coordination of material
flows, building site, supply chains, and coordination of different participants of construction
projects, as well as other technical, organizational, and environmental issues, which influence
project time, quality, and cost (Sobotka, Czarnigowska, and Stefaniak, 2005, pp. 205-206, 215),
4. CONSTRUCTION LOGISTICS 4
According to Koskela, due to different needs, priorities, sites, surroundings, designer
views, and other factors, construction production has one-of-a-kind nature (that is, its projects are
unique). Of course, this does not influence all the production processes within construction, as
some types of activities and resources are common; still, this can create some difficulties. For
instance, incoherent and unorganized input of varied client groups can cause disruptions to the
flow of activities. Herewith, these activity flows are likely to have a specific design (respective
to a certain project) and can involve some new activities; therefore, they can be more difficult to
coordinate and control. Also, construction projects are more difficult to compare and measure
due to their uniqueness. Consequently, within these projects, it is not easy to ensure continuous
improvement, variability reduction, cycle time compression, and transparency enhancement
(especially in terms of project costs) (Koskela, 1992, 44-45). The latter is mostly caused by the
fact that decision making is often based on cash flow, and cost records do not help to determine
savings from logistics improvements. Also, one-of-a-kind nature of construction projects
assumes the involvement of working teams for a short period of time, which causes difficulties in
the optimization of construction logistics and supply chains (SFfC, 2005, p. 6).
As construction production is carried out at product’s final site, it has some specific
features connected to such aspects as variability (e.g. external intrusion, interruptions, or
uncertainty regarding resources, site geology, or environmental factors), complexity (due to a
large variety of work teams), transparency (as constantly evolving environment makes visual
control complicated), and benchmarking (due to decentralized approach) (Koskela, 1992, 46).
Also, construction projects are usually performed by temporary multiorganizations made
up of different companies, which may have never worked together before, and involving
temporary work teams. Naturally, this creates certain problems regarding variability control,
5. CONSTRUCTION LOGISTICS 5
continuous organizational improvement, and monitoring of complete production processes, as
well as information communication and goal congruity (Koskela, 1992, 47).
On the whole, the nature of production process in construction industry is determined by
the general model of operational process (namely the conversion and the sequential approach)
and peculiarities of construction industry, which impact supply chain management.
So, as we can see, production process and logistics management within construction
industry face some problems and difficulties. These problems point to the ineffectiveness of
traditional (conversion) approach to construction. So, a new model should be used. According to
Koskela (1992), a new production philosophy to construction should be represented by a more
complex and integrated model than a conventional one. Within this model
Production is a flow of material and/or information from raw material to the end product
… . In this flow, the material is processed (converted), it is inspected, it is waiting or it is
moving. These activities are inherently different. Processing represents the conversion
aspect of production; inspecting, moving and waiting represent the flow aspect of
production.
Flow processes can be characterized by time, cost and value. Value refers to the
fulfilment of customer requirements. In most cases, only processing activities are value-
adding activities. For material flows, processing activities are alternations of shape or
substance, assembly and disassembly. (p. 15).
Thus, within the new model, production involves two processes: conversions (value-
adding activities) and flows (non-value-adding activities). Within a construction project, flow
processes involve design processes and construction processes, namely material and work
processes, as well as project management, design management, and construction management
6. CONSTRUCTION LOGISTICS 6
processes. All of them can be characterized by their cost and duration, which depend on “the
efficiency of value-adding activities and the amount of non-value-adding activities,” and
customer value (namely the value for a next customer and a final customer), which consists of
product performance and conformance to specifications (Koskela, 1992, p. 38).
Consequently, within this model, production efficiency depends not only on conversion
efficiency (e.g. levels of technology, skills, motivation, etc.), but also on the efficacy of flow
activities, binding various conversion activities. Herewith, flow efficiency assumes the reduction
of the number of flow activities or their elimination. This can be achieved through the use of the
following eleven principles of flow design and improvement: reduction of the share of non-
value-adding activities, output value increase, variability reduction, reduction of cycle time,
simplification through the minimization of the number of process parts, steps, and linkages,
output flexibility increase, process transparency growth, control of complete processes rather
than separate sub-processes, ensuring continuous process improvement, benchmarking, and
ensuring the balance between flow and conversion improvement (Koskela, 1992, pp. 15-16).
Also, in order to overcome flow problems, various techniques can be used. For instance,
instead of sequential method of project realization, concurrent engineering can be used. This type
of solutions helps to reduce cycle time, consider next production stages better, and focus control
on complete processes. Also, construction industry can use systematization of constructability
knowledge, performance specification, and partial solutions (mostly concerning organizational
rethinking), such as design-built contracts, ensuring contractors’ participation in designing, or
involvement of third parties responsible for flow management (Koskela, 1992, pp. 42-43).
The new production philosophy assumes some other changes too. For instance, quality
improvement in construction industry involves the redesign and improvement of processes in
7. CONSTRUCTION LOGISTICS 7
order to ensure lower variability; creation of mechanisms for rapid defect and deviation detection
and correction; and improvement of specifications’ identification for different conversion
activities. Meanwhile, non-segmented control assumes control of a complete flow process.
Herewith, planning requires a shift from network to flow planning (Koskela, 1992, pp. 43-44).
Apart from suggesting a new model of production and pointing to the mechanisms of
overcoming flow problems, which can be applied to construction industry, Koskela paid special
attention to the peculiarities of this industry (namely one-of-a-kind nature of its projects, the use
of temporary multiorganizations, regulatory interventions, and site production) in terms of
improvement of construction logistics.
For example, the solution to the problem of one-of-a-kind nature of constriction projects
involves artificial feedback cycles, planning and employee training based on the use of mock-up
models, client involvement, clear instructions, high quality documentation, continuous planning,
etc. These are operational solutions for control and improvement. Herewith, structural solutions
assume the use of standard work flows and associated skills and components, as well as concept
buildings, which are based on pre-engineering solutions adaptable to different needs (e.g.
building schools, office buildings, hospitals, etc.) (Koskela, 1992, pp. 45-46).
Thus, Koskela’s proposals provide a link between on-site and off-site production in
construction projects through the combination of on-site and off-site activities. Moreover,
Kaskela claims that the configuration of material flows should ensure the performance of only
minimal number of activities on site (which is a structural solution). This assumes the use of
modularization, prefabrication, and preassembly (for projects allowing a great share of off-site
production); or speeding up and pushing some activities (e.g. inspection, sorting, or storage)
upstream in the material flow (i.e. for projects requiring mostly on-site production). Also, such
8. CONSTRUCTION LOGISTICS 8
operational solutions as temporary enclosures, detailed and continuous planning (including risk
planning), multi-skilled work teams, and systematized work procedures can be used to manage
production constraints connected to the site of production (Koskela, 1992, pp. 46-47, 49).
Also, Koskela provides several suggestions regarding the problems caused by the use of
temporary multi-organizations. The possible solutions include team building, clear role
definition, decoupling of work packages, working with cooperating organizations, and
encouraging long-term relationships and partnership between an owner and an engineering firm,
an engineering firm and a vendor, or contractor and subcontractor (Koskela, 1992, pp. 48).
Naturally, construction industry is subject to various checks and approvals by regulatory
authorities, which creates uncertainty and process constraints (first of all, time constraints). So,
these activities should be included into production flow. While being part of the flow, they
should be simplified and speeded up (e.g. approval process) and the way of their execution
should be changed) (Koskela, 1992, p. 48). This will improve construction logistics. Herewith,
the realization of these suggestions is mostly the responsibility of regulatory authorities and
governments, unlike other aspects of construction supply chain.
Thus, Koskela contributed to construction logistics through the suggestion of a new
production model based on an integrated approach to production process in construction and
considering industry’s logistics peculiarities. This model can improve the effectiveness of
operational processes and increase quality, time, and cost parameters of construction industry.
Another report regarding construction logistics is “Rethinking Construction” by Egan. Its
main purpose is to provide the scope for improving construction quality and efficiency in terms
of supply chain management. Therefore, the report reviews traditional approaches to
construction and provides suggestions for improvement of the industry’s logistics.
9. CONSTRUCTION LOGISTICS 9
In order to achieve this goal, the author identifies some problems and challenges that
arise within the supply chain in construction. First of all, the supply chain in construction
industry is highly fragmented, involves separated processes, and relies on contractual and
confrontational culture. Thus, the supply chain lacks integrity (Egan, 1998, p. 19).
Also, Egan points to the fact that while sequential construction process minimizes
constructors’ risks by defining exact steps of further participants (e.g. designers, constructors, or
suppliers) through contracts and specifications, clients are less protected. Moreover, sequential
approach does not provide an opportunity for constructors and suppliers to participate in project
planning and project design (Egan, 1998, p. 19), which may disrupt production processes later.
Another crucial challenge on the way of construction logistics improvement is client
choice. The matter is that clients can equate project price with its cost, selecting constructors
based on cost parameters (Egan, 1998, p. 7). Moreover, continuous choice of new designer,
supplier, or constructor teams for every new construction project inhibits learning and
development of these teams and hinders innovation. Consequently, there is less opportunity for
the development of experienced and skilled teams in the industry (Egan, 1998, p. 19).
In this context, it should be mentioned that there is a crisis in industry workers’ training.
Naturally, construction logistics requires construction employees to have respective skills. They
include top management skills, project management skills (especially skills in project integration
and performance improvement leadership), supervisor and designer skills, multi-skilling, and
continuous learning (Egan, 1998, p. 26). However, a decline in the share and number of
construction workforce trainees can cause skill (including technical and managerial skills)
shortages in the industry. Moreover, the problem is accompanied by the absence of a proper
career structure in construction industry (Egan, 1998, pp. 7).
10. CONSTRUCTION LOGISTICS 10
Obviously, all these challenges and problems, together with leadership commitment to
organizational improvement, consideration of future clients’ needs (company and industry
image), and problems caused by lower focus on quality and commitment to people (Egan, 1998,
pp. 13-14), point to the need of construction logistics improvement and systematization. The
latter is caused by the fact that 80% of inputs into buildings are repeated, especially designing
and planning processes, as well as repair and maintenance works (Egan, 1998, p. 18).
That is why Egan suggests that construction supply chain should be standardized.
Standardization can improve the design stage of construction, while simplifying the complex
construction process. Also, standardization makes production processes more predictable in
terms of what, how, when, and by whom is performed. However, this does not necessarily mean
the creation of monotonous buildings with poor aesthetics (Egan, 1998, pp. 27-28).
Herewith, the whole construction process should be explicit and transparent and involve
the whole construction team and its skills to ensure the delivery of value to clients (Egan, 1998,
p. 18). Moreover, the report suggests that a new logistics approach should have a bigger focus on
end-customers and end-products, as this helps to view construction process in a more integrated
way and get a better understanding of what should be done (Egan, 1998, p. 27).
Naturally, construction improvement requires respective changes in logistics and
organizational culture and structure, including design approaches, technology use, company
relationships, working conditions, skills and training, etc. First of all, this means production
process integration. So, teams of constructors, designers, and suppliers should work together on
product development and implementation, creation of supply chain partnership, component
production, waste elimination, innovation, and learning. For example, product team integration
assumes the establishment of close links to “the supply chain through which the skills of
11. CONSTRUCTION LOGISTICS 11
suppliers and their innovations can be assessed” and provision of access to market research.
Meanwhile, project implementation team (involving key suppliers) should participate in such
processes as design of engineering systems, selection of key components, and pre-planning
construction, manufacture, and commissioning (Egan, 1998, pp. 19-20).
Herewith, Egan points to the special importance of design integration in construction and
performance in use. In this context, designer collaboration with other project participants is vital,
while design teams should involve suppliers and subcontractors. Herewith, in order to ensure the
best use of designer creative and analytical skills, they should be aware of the specificity of the
manufacturing and assembling processes. Moreover, construction design should consider all
project costs, including energy and maintenance costs, as well as sustainability issues. The
reason is that clients are becoming more aware of and more interested in sustainability issues of
construction industry, beginning from materials used to final decommissioning. On the whole,
Egan believes that construction industry should develop a concept of “design for construction,”
as an equivalent of the concept of “design for manufacture,” thus ensuring construction
production efficiency and quality (Egan, 1998, p. 27).
Consequently, construction improvement assumes the establishment of long-term
relationships and alliances between different participants within construction supply chain.
Partnership relationships should cover all participants of product creation and delivery processes,
beginning from client need identification to meeting the need itself. Being based on mutual
interests, such relationships will ensure continuity and cooperation in team learning and product
improvement (Egan, 1998, p. 29).
Naturally, this approach requires certain changes in supply chain management. First of
all, the partners should be chosen based on the criterion of best overall value for money, rather
12. CONSTRUCTION LOGISTICS 12
than the lowest price. Other useful criteria include team-working skills, innovativeness, and
ability to suggest effective solutions. Secondly, all the participants should share success
depending on their share in the creation of customer value. Herewith, effective partnership
should be based on the recognition of parties’ mutual interdependence, rather than formal
contracts, as the latter are likely to increase project cost, while adding no value for clients.
Finally, discipline between project teams, suppliers, other contractors, and clients should be
ensured. Therefore, performance measurement and competition against quality, cost, and
timeline targets should be introduced (Egan, 1998, pp. 29-30). Herewith, partnering within the
supply chain in construction industry requires the recognition of client and constructor
interdependence, the establishment of open relationships, effective performance measurement,
and commitment to improvement (Egan, 1998, p. 20).
Additionally, the report addresses such logistics issues as component production and
delivery. Effective logistics management should ensure detailed planning, management, and
improvement of operational process in order to ensure the production and delivery of the right
components at the right time, in the right order, and without defects (Egan, 1998, p. 21).
Another important aspect of an effective production process is ensuring quality design.
Designing defects and snagging before construction helps to design buildings and components
“right first time” and thus, to avoid waste and excess costs (Egan, 1998, p. 27). Naturally, such
policy is in line with a holistic approach to production.
Also, the experience provided by completed projects, especially such issues as client
satisfaction, control systems’ effectiveness, and components’ durability, should be shared. This
helps to get a better understanding of construction production processes and logistics and ensure
better management (Egan, 1998, p. 27).
13. CONSTRUCTION LOGISTICS 13
Herewith, it should be stated that construction improvement should not rely on
technology alone. As construction efficiency depends on the organization of production
processes, organizational culture should be changed and various processes should be improved
and only then, technology can be applied to support these transformations and improvements.
Process improvements may include pre-planning with suppliers, subcontractors, or component
manufacturers in order to minimize the time of certain activities and time spent on site.
Meanwhile, technologies can improve the process of building and component design, make
information exchange easier, and eliminate waste and rework (Egan, 1998, p. 28).
Finally, it should be mentioned that Egan views construction workforce as a most crucial
asset for construction industry improvement. That is why people should be valued and provided
with proper working conditions. The easiest thing to do this is on site (i.e. through the provision
of proper facilities, uniforms, and rest areas). Also, ensuring that workers are properly trained
and work within the production process has dual consequences. First of all, this provides better
operational results, because trained employees performing their job properly and on time are able
to create a better end product. Also, this saves production costs in terms of lost work time,
potential prosecutions, and closure of construction sites. Secondly, this helps to increase health
and safety records (Egan, 1998, p. 25), thus ensuring the execution of social standards.
Thus, Egan’s report provides recommendations regarding supply chain logistics in
construction industry in order to increase the efficiency of the latter.
In fact, both reports, “Application of the New Production Philosophy to Construction” by
Koskela and “Rethinking Construction” by Egan, are linked by their topics and objectives, as
they address the problems of construction supply chain and logistics management and solutions
to them.
14. CONSTRUCTION LOGISTICS 14
Probably, the basic and the most important issue concerning construction supply chain
and logistics is the traditional approach to production process. While being sequential and
somewhat fragmented (due to the focus on sub-processes and the use segmented control), it lacks
overall integrity and systemic consistency. Herewith, while Koskela analyzes the whole problem
vaster, viewing its features, components, and various consequences, Egan focuses on the major
effect of this approach, namely disruptions of production flows. In this context, we should also
mention that integrity is viewed in terms of supply chain partnership and cooperation between
different participants and the problem of work teams in construction (as they are temporary,
varied, and lack cooperation ties).
Also, both authors agree on the problem of insufficient internal improvement and
innovation within the production process in construction industry. However, they focus on
different causes of this. For example, Koskela views sequential approach and construction
projects’ peculiarities, namely one-of-a-kind nature and the use of temporary multiorganizations
as major causes. Meanwhile, Egan views client choice as a determinant factor. On the other
hand, this choice is strongly connected to the two features of industry production process, which
are mentioned above. While demanding for somewhat unique projects, clients often choose new
varied teams. So, we can say that Egan’s report partially transformed and developed the
understanding of the problem of construction improvement.
Similar problems were mentioned in the Strategic Forum for Construction report (2005).
According to this report, major supply chain and logistic problems in construction industry
include effective use of skilled workforce, construction product management (including
inventory storage and resource transportation), coordination of different contractors’ work, waste
management, and overall production process organization. In turn, these problems create other
15. CONSTRUCTION LOGISTICS 15
challenges for construction industry, namely additional costs and wastes in production process,
decreased quality of end-products, delays in operational process, and increased risks to health
and safety (SFfC, 2005, pp. 3-4). Additionally, one of the big challenges within construction
industry production is the lack of understanding of supply chain constraints, as well as lack of
trust and confidence in supply chain delivery. This problem is accompanied by information
unreliability, as it is mostly ‘estimate’ rather than precise (SFfC, 2005, p. 7).
Probably, the first and the simplest step to increase construction logistics effectiveness is
to create a more integrated production process and supply chain. Both reports paid special
attention to this approach. Though this is not directly stated, it is assumed that “a considerable
amount of waste is incurred in the industry as a result of poor logistics” (SFfC, 2002, as cited in
in SFfC 2005, p. 2). Meanwhile, an integrated logistic system improves supply chain
management through just-in-time deliveries, elimination of most material handling and on-site
storage, and elimination of causes of work stoppage (Sobotka, Czarnigowska, and Stefaniak,
2005, pp. 215).
However, Koskela views integration mostly in terms of combination of conversion
(value-adding) and flow (non-value-adding) processes (a flow model). Naturally, the report
suggests the improvement of production in construction industry through the improvement of
both these components and solution of flow problems. Herewith, this can be ensured through the
use of non-segmented process control. Meanwhile, Egan focuses on ensuring integration through
the creation of long-term partnership relationships within construction supply chain and
especially, integration of construction design. Naturally, this requires changes in supply chain
design and organizational structure and culture. On the other hand, Kaskela views the
16. CONSTRUCTION LOGISTICS 16
establishment of partnership relationships as a crucial tool of solving the challenges of temporary
multiorganizations.
Indeed, partnership within construction production is vital, as it determines project
success. The reason is that combination (and even centralization) of participants’ efforts is able
to provide a synergetic effect (Stevans, 1989, as cited in Sobotka, Czarnigowska, and Stefaniak,
2005, pp. 206, 215).
Additionally, these reports pay attention to such a challenge as project uniqueness and
possibilities of production process standardization. Both authors agree that despite the fact that
all construction projects have their specific features and client requirements, some components
and processes can be standardized. Moreover, Koskela believes that this step can help to balance
on-site and off-site production, making construction logistics more effective. Also,
standardization can help to deal with the constraints caused by one-of-a-king projects’ nature.
However, there are some additional solutions that Egan’s report suggests. For instance,
Egan pointed to the problem of construction workforce, namely lack of trainees, absence of
career structure, and effective use of employee skills. Indeed, being an important aspect of
construction logistics, workforce has a great impact on production process improvement.
Also, Egan’s report indicates that within construction industry improvement, the use of
technologies is not the most important and can be only one of the tools. The reason is that first of
all, effective production process requires proper construction logistics, which depends on how
different processes, relationships, and communication are organized and controlled.
So, both Koskela’s and Egan’s reports point to the importance of the use of a holistic
approach to production and interconnections within supply chain participants. This helps to solve
numerous problems which arise within a traditional approach to construction process and to
17. CONSTRUCTION LOGISTICS 17
increase construction projects’ efficiency in terms of time, costs, quality, and consumer needs.
Moreover, this fosters the creation of a better competitive image of the whole industry.
18. CONSTRUCTION LOGISTICS 18
References
Egan, J. (1998). Rethinking Construction. The Report of the Construction Task Force. Retrieved
from http://www.architecture.com/Files/RIBAHoldings/PolicyAndInternationalRelations/
Policy/PublicAffairs/RethinkingConstruction.pdf.
Koskela, L. (1992, September). Application of the New Production Philosophy to Construction.
Technical Report # 72. Center for Integrated Facility Engineering. Retrieved from
http://www.leanconstruction.org/pdf/Koskela-TR72.pdf.
SFfC. (2005, August). Improving Construction Logistics. Report of the Strategic Forum for
Construction Logistics Group. Retrieved from
http://www.strategicforum.org.uk/pdf/Logistics%20Report%20August%202005.pdf.
Sobotka, A., Czarnigowska, A., and Stefaniak, K. (2005). Logistics of Construction Projects.
Foundations of Civil and Environmental Engineering, 6, 203-216. Retrieved from
http://almamater.ikb.poznan.pl/fcee/2005.06/full/fcee_2005-06_203-
216_logistics_of_construction.pdf.