Supply chain management refers to the optimization of supply chain operations to minimize costs, so that the supply chain from the beginning of the procurement to meet the final customer of all the processes, MBA, EMBA and other management education will be the enterprise supply chain management included.
1, logistics system design and optimization: students learn how to design and optimize the logistics system, including logistics network design, warehousing and distribution center layout, transportation route planning. They need to understand the supply chain process and improve logistics efficiency by optimizing the logistics network, reducing transportation costs and reducing inventory.
2. Supply Chain Management: Students learn how to manage the supply chain, including supplier selection and evaluation, inventory management, demand forecasting, order processing and supply chain coordination. They need to master the coordination and communication with suppliers, manufacturers, distributors and other links in the supply chain to improve the overall effectiveness of the supply chain.
3. Transportation and Distribution Management: Students learn how to manage the transportation and distribution aspects of logistics, including transportation mode selection, transportation plan development, transportation scheduling management, and transportation cost control. They need to understand the characteristics and applicable scenarios of different transportation modes to improve efficiency and service quality through rational transportation and distribution management.
4. Warehousing and Distribution Management: Students learn how to manage warehousing and distribution links, including warehouse layout planning, goods distribution management, warehousing equipment and technology applications. They need to understand the characteristics and functions of different types of warehouses and distribution centers, and improve efficiency and meet customer needs through rational warehousing and distribution management.
5. Logistics Information Systems and Technology Applications: Students learn how to apply information systems and technologies to support logistics management and decision-making, including the design and application of logistics information systems, logistics data analysis and mining. They need to understand different logistics information systems and technology tools to improve logistics management effectiveness through data analysis and intelligent technology.
Considerations in choosing a logistics engineering major:
1. Interest and adaptability: Understand your level of interest in logistics management and supply chain management as well as your adaptability, and consider whether you are interested in logistics operations, supply chain coordination, and other aspects of your work, and are able to adapt to the related technical and management challenges.
2. Professional knowledge and skills: Understand the curriculum and professional knowledge requirements of the logistics engineering major, including logistics system design and optimization, supply chain management, transportation and distribution management, warehousing and distribution management, logistics information systems and technology applications. Ensure that you have some foundation in math, engineering, and management to better learn and understand the relevant knowledge.
3. Career Prospects and Employment Opportunities: Understand the employment prospects and employment opportunities of logistics engineering majors, consider the current and future market demand, and understand the development trend and employment situation of related industries. Information can be obtained by communicating with practitioners, reviewing relevant reports and research data.
4. Practice opportunities and school resources: Find out whether the school provides logistics-related practice opportunities and internships, and whether there are resources such as related laboratories, equipments and cooperative enterprises. These resources can help students learn and practice better and enhance their professional ability and competitiveness.
5. Comprehensive strength of disciplines and faculty team: Understand the school's strength of disciplines and faculty team in the field of logistics engineering, including teachers' teaching and research backgrounds, scientific research achievements, and industry experience. Excellent disciplines and faculty teams can provide better teaching and guidance, and have a significant impact on students' learning and development.
6, visit the school and communication and consultation: if conditions permit, you can visit the school's logistics labs, warehouses, research centers, etc., and communicate with students and faculty and consult with them to learn more about the logistics engineering profession and the characteristics of the school.