Description
Read and interpret supply chain and transportation data. Analyse the reliability and availability of findings by using methods such as data mining, data modelling and cost-benefit analysis.
Alternative labels
interpret logistical data through analytical methods
interpret logistical data
analyse logistical data
interpret data on elements of logistics
use logistical data analysis methods
interpret logistical data through use of analytical methods
analyse data on logistical elements
utilise methods for analysing logistical data
utilise logistical data analysis methods
utilise methods of logistical data analysis
use methods for analysing logistical data
Skill type
skill/competence
Skill reusability level
cross-sector
Relationships with occupations
Essential skill
Use methods of logistical data analysis is an essential skill of the following occupations:
Logistics analyst: Logistics analysts streamline product manufacturing, transportation, storage and distribution. They assess production and supply chain problems to determine economically efficient solutions. They assists company managers in decision-making processes and direct programs designed to provide subcontractors, managers and customers with logistic technology.
Optional skill
Use methods of logistical data analysis is optional for these occupations. This means knowing this skill may be an asset for career advancement if you are in one of these occupations.
Transport engineer: Transport engineers design and set the engineering specifications for the construction and development of roadways and transport infrastructure. They apply engineering concepts and knowledge for developing sustainable and efficient modes of transportation ranging from roads to canals, railways, and airports.
Logistics engineer: Logistics engineers design and implement systems aimed to optimise the time and efforts invested in transportation activities. They ensure that systems allow for micro-tracking and smooth communication across transport methods and stages.
Civil engineer: Civil engineers design, plan, and develop technical and engineering specifications for infrastructure and construction projects. They apply engineering knowledge in a vast array of projects, from the construction of infrastructure for transportation, housing projects, and luxury buildings, to the construction of natural sites. They design plans that seek to optimise materials and integrate specifications and resource allocation within the time constraints.
Application engineer: Application engineers deal with the technical requirements, management, and design for the development of various engineering applications, such as systems, new product designs, or the improvements of processes. They are responsible for the implementation of a design or process improvement, they offer technical support for products, answer questions about the technical functionality and assist the sales team.
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