مهندس صنایع در مدیریت مهندسی
Importance of industrial engineer in project management
industrial engineering
• What is the daily task of an industrial engineer?
• Responsibilities of an industrial engineer include analyzing operations, designing workflows and production processes, reducing inefficiencies and ensuring that final products conform to established quality standards.
• What does an industrial engineering technician do?
• Industrial engineers are professionals who make various production plans for companies. They will design these plans to improve productivity, reduce waste in the workplace and reduce costs. Industrial engineers usually oversee the overall operations of a company to find new ways to increase its efficiency through new production designs.
• They will carefully analyze the company’s current processes and production plans and design new production processes accordingly. These employees will also design various control systems to help minimize costs and increase production quality. They compile equipment and materials lists, cost analyses, production cost estimates, and purchase orders before executing new projects.
• “Industrial engineering is the branch of engineering most closely related to human resources because we apply social skills to work with all types of employees, from engineers to salespeople to senior managers.
• Industrial engineering technicians and technicians help engineers solve problems that affect production or production layout. They prepare machine and equipment plans, design work flows, conduct statistical production studies, and analyze production costs.
• Increase Productivity
• Industrial engineering has provided a systematic approach to simplify and improve productivity and efficiency. Purer, more efficient and profitable business practices, while increasing service and quality to customers. … Increase Productivity.
• Industrial engineers devise efficient systems that integrate workers, machines, materials, information, and energy to produce a product or provide a service.
• Industrial engineers must also have the following special characteristics
• Creativity….
• Critical thinking skills. …
• Listening skills. …
• Mathematical skills. …
• Problem solving skills. …
• Speaking skills…
• Writing skills
• Who do industrial engineers work with?
• They devise efficient ways to use workers, machines, materials, information and energy to produce a product or provide a service. Industrial engineers often work in teams with other professionals, industrial engineering technicians, and production staff
• What is the daily task of an industrial engineer?
• Responsibilities of the industrial engineer include analyzing operations, designing workflows and production processes, reducing inefficiencies and ensuring that final products conform to established quality standards.
• connections
• Developing verbal and written communication skills is very important as an industrial engineer. Engineers must communicate with customers or supervisors to better understand their needs. They should collaborate with other engineers to improve productivity. Finally, industrial engineers will also communicate with team members to report results and provide recommendations for improvement
• What types of projects do industrial engineers work on?
• Industrial engineering as we know it began in the early 20th century, when the first engineers began to apply scientific theory to manufacturing. Factory owners labeled their new professionals “industrial” or management engineers
• As an industrial engineer, you can participate in activities such as: long-term planning, new facility design, robotics development, production system installation, work flow improvement, management information system design, statistical analysis, optimization studies, economic you have. Decision making, job
• Industrial engineering is usually defined as the integration of machines, workers, production materials, money and scientific methods.
While many current industrial engineers still work in these fields, their scope of work has become more general. Today’s industrial engineers work in much more environments than factories. In recent years, fields such as energy and information technology have become particularly dependent on the skills of industrial engineers. These flexible professionals may also be employed in the following cases
• In short, industrial engineering majors learn to use engineering and scientific principles to design, produce, or improve systems that include both goods and services. Industrial engineers deal with how products are created, the quality of those products, and the cost of making products. Industrial engineers also deal with the design and operation of factories that produce products. They design workstations, automation and robotics for systems across the supply chain
• In addition, industrial engineers must pay attention to the safety of employees and workplace environments. They balance the implementation of responsible processes with other requirements of producing a high quality product or service. As a result, industrial engineers are often heavily involved in managerial aspects
• Industrial engineers work with machines and systems to improve the efficiency of a company. An industrial engineer may work in production or manufacturing, finding ways to reduce costs, improve productivity, and maximize the organization’s output. An industrial engineer may have the following duties
• Evaluate productivity and provide recommendations to improve methods
• Evaluate machinery and identify ways to improve its efficiency
• Develop quality control standards and regularly test and report results
• Forecasting and improving financial planning for industrial equipment
• Monitor employee schedules and assignments and make improvements to meet demands
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• Strong written and verbal communication skills are essential for an industrial engineer. They must be aware of the needs of a business while providing understandable technical advice
• Good leadership skills help industrial engineers implement productivity changes. The ability to build relationships with colleagues is helpful when making recommendations.
• Industrial engineers often need to create appropriate solutions for various challenges. Whether it is to improve the production of a particular product or to reduce waste, the ability to develop a plan to overcome the problem is important.
• Industrial engineers must use analytical skills to evaluate and interpret data. They also use these skills to create reports and describe results for company decision makers
• Industrial engineer skills and qualifications
• Successful industrial engineers have certain skills and competencies that help them in their tasks, which include:
• Industrial engineers use basic and advanced calculations to determine the current and potential productivity of a process. The ability to use calculus, trigonometry, algebra and other types of mathematics is important in this situation.
• Strong written and verbal communication skills are essential for an industrial engineer. They must be aware of the needs of a business while providing understandable technical advice
• Good leadership skills help industrial engineers implement productivity changes. The ability to build relationships with colleagues is helpful when making recommendations.
• Industrial engineers often need to create appropriate solutions for various challenges. Whether it is to improve the production of a particular product or to reduce waste, the ability to develop a plan to overcome the problem is important
• Duties and responsibilities of the engineer
• The duties and responsibilities of an engineer ensure the safety and effectiveness of a process, system or product. Engineers work in a team and must be able to collaborate with other colleagues to ensure the success of a project. Effective communication between engineers, customers and businesses is involved. Other responsibilities of an engineer include:
• Planning using detailed maps
• Preparing estimates and budgets
• Create detailed project specifications
• Designing engineering experiments
• Preparation of technical reports for customers
• Completion of regulatory documents on safety issues
• Completing projects on time and within budget
• Communicate with clients and colleagues about analysis results
• A day in the life of an industrial engineer
• Industrial engineers analyze and evaluate production methods and suggest ways to improve them. They decide how a company should allocate its limited tangible resources (equipment and labor) within existing physical constraints (the physical plant). Every company that hires an industrial engineer, either as a consultant or as an internal manager, has its own limitations. An industrial engineer must quickly become an expert not only in the manufacturing and production processes of the industry, but also in the culture, problems and challenges that the company faces. This may mean face-to-face meetings with executives, extensive stays on production floors, and reviews of historical production data. Industrial engineers receive information from others
They receive information about what is happening in the daily work environment, but they must also make their own observations of these activities. Many employees feel uncomfortable being “supervised” by industrial engineers, and industrial engineers usually walk a fine line between being analysts and detectives. The most difficult task of an industrial engineer is to convey his observations and suggestions to company managers, many of whom are emotionally invested in the traditional way of doing business. Industrial engineers must be careful in what they say and how they say it. In addition to tact,
Being a successful industrial engineer requires charisma and willingness to stand by your own advice even in the face of unresponsive management. The vast majority of industrial engineers—about 70 percent—work in manufacturing companies, and many have specific areas of expertise, such as assembly, raw product processing, or office (paper) work. Most industrial engineers have good working conditions, intellectually challenging work and high satisfaction. The hours can be long, but the satisfaction from learning that each different project brings is more than worth it
• Types of industrial engineer licenses
• Professional Engineering License (PE)
• The PE license is ideal for more experienced industrial engineers. This license moves you from an entry-level industrial engineer title to a professional engineer (PE) classification. To get a license, you need a bachelor’s degree, at least four years of industry experience, and successful completion of the Fundamentals of Engineering and Professional Engineering exams.
• Has a graphic engineering certificate (CTP)
• CTP certification is available for industrial engineers pursuing graphic design, geometric construction, and annotation. Interested engineers can obtain this certificate after completing their engineering degree and successfully passing the written test.
Certificate of Association of Manufacturing Engineers (SME)
• Certificate
SME is ideal for industrial engineers who work in the manufacturing industry and want to keep up with the latest technology and software applications. To get an SME certificate, you need at least four years of education and four years of industry experience, and then you must pass the exam
• Certified industrial energy professional (CIEP)
• CIEP is a good certification for industrial engineers working in the manufacturing industry with energy efficiency goals. To earn the CIEP, you must have at least six years of combined education and work experience, attend a CIEP training seminar, and pass an open-book exam.
• Important software for industrial engineers
• (to perform data analysis)
• Contains
• ۱) Access
• If you ask, what is Access software suitable for? We have to tell you that the list of things you can do with an Access database is much longer than the list of things you can’t do with it.
• ۲) Advanced Excel (VBA, Macros, PowerPivot, Dashboards)
• Microsoft Excel has the main features of all spreadsheet software. Using a table consisting of rows and columns, data and information can be organized and calculations can be made using this data.
• Each house in Excel is called a cell]
• Statistical analysis of information can be done by drawing functions and graphs
• ۳) AutoCAD, Catia, Solid
Computer-aided design CAD is a technology that studies the use of computer systems to help creativity, improve analysis and design optimization, so a computer program that has the ability to do graphic work or the ability to perform some engineering design activities is called CAD software is classified
• ۴) Forecasting tools
• Excel’s Forecast Sheet tool is a new feature that is available in Excel 2016. With just a few clicks, you can have a forecast made for you, including an attractive chart like the one below:
• This new forecasting tool creates a copy of your data and puts it on a new sheet in your file, along with forecasting formulas to predict future values, all presented in one chart.
• ۵) Lindow 6.1
• This software is used to solve research problems in operations and it solves linear control problems with high speed and presents the results along with sensitivity analysis. Industrial engineers must be familiar with the user of this software and use it in optimization issues.
• ۶) Lingo 7
• Many mathematical models are easily solvable with a low number of variables. As the number of variables increases (increasing the dimension of the problem), the solution time increases exponentially. Today, many operational research optimization models, whether linear, non-linear or integer models, can be easily analyzed with the help of computer software. Among these, we can mention the LINGO software. Lingo software is an optimization software using mathematical model
• ۷) Matlab
• MATLAB software is used in many industries and is widely used in basically every job and profession that requires data analysis. Considering that in today’s era, data and information are among the most important and strategic elements of an organization, therefore, analyzing data and performing mathematical and statistical calculations with MATLAB software is very important and it is very valuable for you to be able to Analyze your data quickly and easily
• Most of the researchers need to learn a programming language in order to analyze the data and solve their problems so that they can translate their problems into computer language with the help of the high speed of the computer and instead of solving them themselves this trouble Give computers to solve problems with high speed and extreme accuracy.
• Therefore, it is necessary to learn the language of speaking with the computer. One of these languages is programming with MATLAB software. Next, we need to know what parts the MATLAB software consists of.
• ۸) Minitab
• Minitab is a statistical quality control software suitable for six sigma and quality improvement projects. This software is known as one of the specialized statistical software for quality control, working on numbers and raw data analysis and is used in many large and small industrial units and by means of statistical data analysis,
• ۹) ProModel
• Promodel simulation software is a discrete event simulation technology used to plan, design and improve new or existing production lines, logistics and other operational systems. In fact, this software allows its users to simulate and optimize different systems. In fact, this software is a tool for modeling and animating all kinds of systems, especially systems
• The supply chain is designed.
• ۱۰) Simulation software like ARENASolidworks
• Siemens Tecnomatix Plant Simulation software that you can use to model and simulate production systems and processes. Also, you can optimize material flow, resource utilization, and logistics at all levels of planning, from global manufacturing facilities to local factories or specific production lines.
. In the Siemens Tecnomatix Plant Simulation program, using digital models of this product, you can test and see how each scenario would be without existing and disturbing production systems. You can also plan the production process before actually installing the production systems. Extensive analytical tools in Tecnomatix Plant Simulation such as bottleneck analysis, statistics and graphs help you evaluate different production scenarios. The results obtained from the analysis can provide the necessary information for quick, reliable and intelligent decisions in the early stages of production planning.
• Using Siemens Tecnomatix Plant Simulation software, you can model and simulate production systems and processes. Also, you can optimize material flow, resource utilization, and logistics at all levels of planning, from global manufacturing facilities to local factories or specific production lines.
• ۱۱) SPSS 10.1
• SPSS, which stands for Statistical Package for Social Science, is one of the most powerful and comprehensive statistical software for data analysis; SPSS statistical software is made by IBM company of America, which has been established for 109 years.
• SPSS statistical software is considered the most widely used statistical software in the country due to its simplicity and other prominent features, which is widely used in fields such as psychology, industries and agriculture; The research method using SPSS software allows to compare different data and methods from the obtained outputs and choose the best option.
• ۱۲) SQL
• The SQL query language is the most popular and common language for working with databases, which is not limited to a specific programming language, which means that most programmers need this language to communicate with databases.
• ۱۳) Storm
• It is a powerful programming software. None of the programming software has the facilities that this software has. With this software, the programmer does not need anything else because this software is complete and suitable for programming
• ۱۴) Tableau
• Today, organizations are faced with a large amount of data related to their business, the correct use of which can greatly help the organization. Business intelligence is a set of techniques used to analyze data and make timely decisions. Today, the use of business intelligence software is popular in Iranian organizations. One of the most important and user-friendly business intelligence software is Tableau. In this extra-lesson in 6 lessons with various examples of training related to entering data into the software and solving data entry problems, sorting, filtering, drawing diagrams, working with maps, creating dashboards and stories and their settings. will provide
• ۱۶) Unigraphics, etc.
Unigraphics comprehensive software, a product of the American E.D.S company, is one of the most powerful comprehensive design, construction and analysis software. This software was introduced in 1960 by McDonnell Douglas, a manufacturer of airplanes and spacecraft, and has been used in various applications from design to construction.
• Unigraphics software, due to the many features it provides to the user, has led to the faster and cheaper presentation of complex products and reduced costs from design to product manufacturing. Most of these facilities
as follows:
• -۱- Information-based design process automation
• -۲- Industrial design
• -۳- Modeling at the highest global level
• -۴- strength analysis
• -۵- Simulation and analysis of mechanisms
• -۶- Construction
• Industrial engineers determine the most effective ways for an organization to use the basic factors of production: people, machines, materials, information, and energy to produce a product or provide a service. They are the bridge between management objectives and operational performance. They are concerned with increasing productivity through people management, business organization methods and technology. Although most industrial engineers work in manufacturing industries, they also work in consulting services, healthcare, and communications
Mechanical engineers research, develop, design, manufacture, and test tools, engines, machines, and other mechanical devices. They work on power generating machines such as refrigeration and air conditioning equipment, machine tools, material handling systems, elevators and escalators, industrial production equipment and robots used in production. The field of nanotechnology, which involves creating high-performance materials and components by combining atoms and molecules, is introducing entirely new principles to the design process.
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