Supply chain and logistics controller – two promising professions for supporting transparency in supply chain management

2.1 Supply chain management and its current dimensions and challenges

SCM has its own identity because there are different approaches to considering and perceiving this concept among researchers and practitioners (Halldórsson et al., 2015). SCM is often associated with purchasing management, logistics management, buyer-supplier relationship management and the management of a “specific” business model. SCM includes the so-called “end to end” management, although researchers, in particular practitioners, often consider the beginning and end of SC differently, which, in turn, determines the scale and the parts of its management (Storey et al., 2006). Despite the discrepancies in the perception of SCM as a result of its various disciplines (logistics, marketing, HR, economics, management, IT and finance), the common elements are defined and interconnected (Hausman et al., 2006). These elements include a systemic and strategic approach and customer orientation (Mentzer et al., 2001). Presenting SC as a system enables adaptation of the concept of activity-based management, which is strategic, long-term and which is aimed at both cost reduction through optimization of some actions, elimination of inappropriate actions and value creation – mainly for the customer (Hofmann and Bosshard, 2017). As a result, SC is a complex business project requiring an appropriate management approach to raise the level of the value chain.

SCM has a detailed and dynamic nature. This includes the elements that make up the SC (organizations and their resources), and the uncertainties and risks arising from the involvement of resources in different transactions (Turner et al., 2018). Aitken et al. (2016) indicate that this complexity of SC may be “dysfunctional” (errors and ineffective processes) and “beneficial” (adaptive). Both options are determined by structural, socio-political and emergent perspectives and related responses in the management process in areas such as planning and control, cooperation, development and flexibility. Therefore, the practice of SC professionals can refer to SC exploration (refining and using existing knowledge) focussing on flexibility and providing efficiency, and to SC exploitation (innovating, problem-solving and creating new knowledge) (Aslam et al., 2018; Turner et al., 2018).

Transformations within the environment such as globalization or technology development, means that SCM trends and requirements for SC professionals are undergoing constant change (Bartnik and Park, 2018; Cousins et al., 2006). SCM must simultaneously meet short-term (agility) and, increasingly often, long-term objectives (adaptability) and additionally, be aware of market sentiment. These three perspectives affect SC dexterity (Aslam et al., 2018), which means that SC professionals need to create a flexible and effective SC simultaneously because of its dynamic character (Aslam et al., 2018). This situation is conditioned by contemporary transformations of the economic environment, for example, implementation of the assumptions of the Industry 4.0 concept: custom programming solutions, internet of things, cloud computing and real-time SC optimization (Bag et al., 2019). Their correct adaptation to SCM allows the achievement of smooth and lean SC operations, which results in a sustainable SC and value chain.

Sustainable SCM is an issue that scientists have been keen to address in recent years as a result of the emergence of the CSR and triple bottom line concepts (Bag et al., 2019; Markley and Davis, 2007). For example, Crum et al. (2011) highlight the potential for further empirical and theoretical studies in the context of sustainable SCM. Being a business phenomenon of the twenty-first century, required by various stakeholders, it is a challenge for SC professionals (mainly SC and logistics managers), who need to identify those actions that would affect economic achievements in a transparent way, i.e. increasing them, while not diminishing the importance of processes in the social and environmental spheres.

The sustainability phenomenon has a strategic dimension, and in the SCM context it is best illustrated by the words:

[…] strategic, transparent integration and achievement of social, environmental and economic objectives taking into account systematic coordination of major inter-organizational processes in order to improve economic performance in the long term by individual organizations and their supply chains (Crum et al., 2011).

The modern dimension of the SC is expressed by such issues as sustainability, agility, adaptability, and dexterity, which are the result of changes in the business environment (e.g. Industry 4.0. and CSR). This complexity affects the development (by SC professionals) of an appropriate and dynamic approach to its management, which has a strategic and holistic character and ensures transparency while striving to achieve added value (Zhu et al., 2018) (Figure 1).

Achieving the SC dimension desired by business today is possible only while maintaining a balance between the people, processes and technologies that are elements of resource-based theory.

2.2 Resource and knowledge theory as a base for achieving transparency of supply chain management

M. Porter emphasized strategic management in business by outlining the relationship between a company’s internal resources, strategy and performance measurement. The researcher pointed out that company resources not only have value in themselves but also enable the implementation of various activities that increase the competitive level in the global market (Porter, 1991). Therefore, resources should be understood as capabilities, organizational processes, company attributes, information and knowledge. Moreover, they can be divided into physical, human and organizational resources (Barney, 1991). Although each of these types is important to gain and maintain market advantage, it is human resources, which provides both a sustainable competitive advantage and high productivity. Van Hoek et al. (2002) emphasize that, in terms of SCM success, the availability of skilled people is more important than physical infrastructure, information and communication, its design and transformation in line with economic trends (Clegg et al., 2013). It is worth quoting at this point a statement, which is often cited in publications: “We cannot do anything without the right people” (Mangan and Christopher, 2005).

Human capital resources consist of three basic elements, namely, know-how, skills and abilities and employee behaviour (Czapla, 2010). The combination of these allows a business to obtain a valuable, rare, inimitable and non-substitutable human resource (Wright et al., 1994). One of the most vital elements in building human capital resources is knowledge. It has been pointed out that a set of intangible knowledge-based capabilities generates most of the effectiveness in creating value, rather than relying solely on financial or physical resources. Knowledge is a strategic resource of a business that creates added value and ensures competitiveness on the global market (Theriou et al., 2009). However, knowledge alone is not useful unless it is properly implemented in business practice. How humans acquire, create, process, store and deliver general and specialist knowledge is reflected in the success of a given organization, expressed in the transparency of its processes, its values and its market advantage (Aharonovitz et al., 2018; Grant, 1996). Knowledge as an important asset of a business solution translates into the concept of “competence” (Davenport and Prusak, 1998).

2.3 Competence as the key to creating the profiles of supply chain professionals

The term “competence” is most broadly defined as the set of skills that a human being must have to perform in any given profession (Burgoyne, 1993). Baker et al. (1997) offer a similar position, writing that competence can be identified with attributes that fit the implementation of a specific activity, and thus, to the requirements of “congruence” and “capability”, i.e. skills and knowledge in a specific area. This means that “competence” includes knowledge, attitudes and patterns of behaviour, which, in a properly integrated way, allow for the realization of processes, goals and achievements (Kennedy et al., 2009).

The literature also points to the so-called professional competences (Derwik et al., 2016; Cheetham and Chivers, 1996), an integral whole of knowledge, skills and attitudes for the implementation of complex tasks in the real professional environment (De Kraker et al., 2019). These competences are inscribed in various holistic models, which allow presentation of the profession or the professional components (Czapla, 2010; Cheetham and Chivers, 1996). In case of Cheetham and Chivers model of competence (occupational competence mix model) have been distinguished core components with the accompanying constituents and meta competences. Meta competences, as superior competences, enable core competences to be developed. The above-mentioned elements of this model interact with each other with a different intensity and focus, thus generating macro, micro and partial outcomes as a sign of professional performance (Cheetham and Chivers, 1996). In Czapla’s (2010) model of competence, as a result of the combination of skills and attitudes, four levels of competence can be identified, i.e.:

1. basic competences (attitude, engaged performer/skills and standard solutions),

2. advanced competences (attitude, independent contractor/skills and expanding the standard, non-routine activities),

3. professional competences (attitude, engaging inspirer/ability and non-standard solutions) and

4. expert competences (attitude, creative creator/ability, going beyond the standard and unpredictable activities).

Both the “engaging inspirer” and “creative creator” are important professional profiles because they take into account contemporary business trends, i.e. they show flexibility, create changes and added value and they are considered as prestigious attributes in business. In total, two examples of such a professional profile are, firstly, management accountant/controller, which from its once menial role of being a passive “bean counter” has become, in the twenty-first century, an active “business partner” (Hiller et al., 2014; Järvenpää, 2007), and secondly, SC or logistics managers who go from technical managers to behavioural managers (Clegg et al., 2013; Crum et al., 2011).

The transformation in the area of competence (concentrating on other points of priority) caused by dynamic changes in the economic environment (e.g. CSR and Industry 4.0.) has not only changed the existing professional profiles of SC professionals (e.g. SC or logistics managers) but also identified the need for new professions in the SCM area (e.g. SC and/or logistics controller) and to consolidate them in business.

2.4 Professionals and their competences in ensuring transparency in the supply chain

To bring about the desired effects (value creation and sustainable development), SCM requires the people responsible for this function, i.e. SC and/or logistics managers, to adapt to trends (e.g. product diversity, product time reduction, globalization, business outsourcing and technology), and in particular to new requirements set out by the Industry 4.0 concept (McKinnon et al., 2018; Bag et al., 2019; Clegg et al., 2013). Therefore, it is no longer enough for SC professionals (mainly managers) to have short-term, ongoing process control and detection of so-called gaps, they must now engage in the process of automation, ensuring the quality of operations in light of new organizational structures, systems, policies and strategies of the organization, which is reflected in a strategic, long-term approach to management (Bag et al., 2019; Kotzab et al., 2018). The main changes that concern SC professionals (mainly managers) are strategic management of supplier relations, strategic cost management (including delivery costs), process integration and strategic orientation in the context of purchasing (Clegg et al., 2013). A similar approach to necessary changes was presented by Ballou (2007), who additionally emphasized the focus on the strategy of achieving revenues in SC, identification of inter-organizational benefits, building trust within the framework of cooperation in SC, information transfer in the network using the appropriate technology, and organizational integration of various operations (including in the area of purchase and logistics). The presented examples of changes necessary and the challenges for SCM reveal that SC professionals must not only change their approach to their tasks from transactional and clerical tasks to planning and strategic tasks but also must take into account the increasing number of risks, and their degree, on brand image and economic performance (Zhu et al., 2018).

This requires the adoption of advanced skills, including data analysis (Flöthmann et al., 2018; Gammelgaard and Larson, 2001). According to Clegg et al. (2013), SC managers must not only have skills and competences from the technological sphere, i.e. advanced technologies, automation, transformation and data transmission but also from the social sphere, i.e. influencing people’s behaviour and relationships (communication and group work), to ensure the strategic dimension of SCM and its success. Many researchers emphasize that it is soft skills (relational and behavioural) rather than hard skills (functional and managerial) that will influence the effectiveness and success of SCM most in the future (Bak et al., 2019). This is related to development of the concept known as behavioural SCM, which involves the analysis and evaluation of decisions in SCM in relation to the assumptions, intentions and basis of the people making them (Crum et al., 2011). Van Hoek et al. (2002) have already stressed that education in logistics and SCM is not heading in the right direction, i.e. in line with economic and business trends, as it has too much emphasis on technical aspects.

Modern business trends have a significant impact on the type of tasks performed by the main SC professionals, i.e. SC or logistics managers (Bak et al., 2019; Cousins et al., 2006; Mangan and Christopher, 2005).The market determines the demand for such competences, required for the achievement of excellence in the profession. For example, for the SC/logistics manager, there needs to be a shift from an administrative role to a strategic one, which requires creativity, knowledge and talent (Giunipero et al., 2006; Mangan and Christopher, 2005).

That is, why Van Hoek et al. (2002) rightly point out that the SC or logistics manager is in a rather critical position and their role, especially when performed by one person, is becoming increasingly difficult to implement to ensure a sustainable SC and value chain. The SC or logistics manager, in the process of management of the SC and decision-making, cannot base everything only on the data from financial measurements (taking into account primarily the operational and tactical dimension), but increasingly needs strategic data, including non-financial data and performance measurements in the social and environmental spheres. Such a large amount of required data, and additionally the need to ensure transparency of SC information and communications, requires adaptation of advanced SC analytics, which can be provided by logistics or SC controlling (Seuring, 2006). SC or logistics controlling will obtain high-quality measurements from the perspective of both costs and performance, and at the same time integrate operational measurements with strategic measurements (Machado et al., 2019). This results from the fact that SC controlling is rationality-oriented (engages all partners in SC’s achievements and goals), coordination-oriented (supports the SC and the logistics manager) and information-oriented (all partners have access to information and the performance reporting system) (Seuring, 2006).

Controlling and its tools have already proved their worth and this is reflected in the number of positive performances (better financial results, financial stability and competitive advantage) (Jermais and Gani, 2004). Because of the increasing complexity and dynamics of SCM, as well as the behavioural orientation of the SC, the responsibility of the SC and/or logistics manager for the functioning of the SC is also growing. This means there is a need to provide direct and organizational support for SCM in the area of analysis, measurement, communication and decision-making. Such support may be offered by the SC controller and/or logistics controller (Wolf et al., 2015). The profile of a controller in business and its translation into the SCM context is described in point 2.5.

2.5 Profile of the controller in business and its adaptation to supply chain management

The profile of the supporting manager’s controller has changed as a result of the evolution of controlling tools and methods. Although their role was initially related to cost reduction within the company (from the financial and operational perspective), over time, it has enlarged to cover the organization’s environment (market perspective – financial and non-financial and strategic). The literature presents different terms for the controller, which depend on the perception of the process and the role (passive and active) in management. The role has been called, for example, “brake”, “architect”, “innovator”, “change agent”, “counter”, “communicator”, “keeper”, “economic knowledge” or “internal advisor” (Dierolf et al., 2011; Weber et al., 2006). Guldin (1998) developed a model for types of controllers, taking into account their task orientation. The first one is the “indicator information specialist” who focuses on changes in strategy and uses specific indicator systems for this purpose. The second is the “pilot/holder”, who supports operational management and focuses on the analysis of deviations and the monitoring of operational processes – including their optimization. The third role of a controller is played by a “business partner”, who, using specific controlling tools, actively participates in strategy building, management and decision-making processes and modifies business models by providing advice and even by participating in the process itself. The last profile of the controller is the “change agent”, who works for the development of the strategy and synchronizes it with the operational level of management. The best-known controller profile in science and business is “business partner”, which should be adapted to the currently complex SCM and the new role of the SC or logistics manager in this process (Wolf et al., 2015; Czenskowsky and Piontek, 2007; Järvenpää, 2007).

A modern controller, regardless of the type of business (financial controller or SC or logistics controller) is the so-called “fitmaker”. Not only must he perform his tasks but also cooperate with managers at the level of the organization and the environment (IGC/ICV, 2012). The task of such a specialist is comprehensive, from identifying and understanding specific states of affairs, solving problems and coming up with initiatives and undertakings, to developing entrepreneurship, co-responsibility for the process of management and decision-making. Therefore, a modern controller should have a combination of factual, professional and behavioural knowledge that will allow them to look “between the numbers” and not just’ at them’ when evaluating them (Wolf et al., 2015; Järvenpää, 2007).

There is no specific controller template in business because there are many different types of controller. However, it is possible to indicate specific basic components of competences for this profession such as knowledge of controlling tools and their application, understanding of the business, ability to create value in the company, a critical approach to and recognition of any weaknesses in the business, knowledge of accounting, expertize in IT as well as neutrality and stability. In turn, it has been stated that in the future higher expectations will include, among others, critical thinking, threat detection, communication and persuasion skills, motivation, teamwork skills, expertize in management competences as well as creativity and flexibility (Wolf et al., 2015; Järvenpää, 2007). In the context of the tasks performed by controllers, they can be divided into those related to planning, defining, controlling, deciding and reporting (ICV, 2018). Moreover, the areas or types of tasks depend on the position of the controller in the organization. For example, the tasks of the junior controller include supporting the team, leading projects, analysing and reporting, planning and preparation of budgets, processing data, making presentations and doing other ad-hoc tasks. While the senior controller controls the planning and managing of business processes (e.g. logistics processes), supporting the decision-making process, advising the company’s management, developing strategies to achieve goals, informing management about the extent to which targets have been achieved, targeting performance comparisons and also optimizing processes (ICV, 2018).

There are a number of scientific studies on the competences of the logistics controller, and the SC controller in particular. Several of them, mainly by German authors, describe the tasks but not the competences of the mentioned profiles. Czenskowsky and Piontek (2007) list such tasks for the logistics controller as establishment and verification of compliance with logistics budgets, variance analysis in logistics, improvement of efficiency, advising the logistics executives (operational level), integration of logistics into strategic planning, implementation of strategies in operational logistics planning and strategic control and documentation of planning (strategic level). In turn, while the SC controller does not have a theoretical foundation, in the labour market one can find a short description of their tasks, which are, namely, management and financial reporting budget planning, preparation of and commenting on results, creation of financial and management reports and identifying and management of projects that optimize costs within the SC (Controller, 2019).

4.1 Competences of an supply chain and logistics controller

Taking into account the occupational competence mix models of Cheetham and Chivers (1996), the core competences were analysed. In both cases, “knowledge/cognitive competences” prevails. For SC controller, they refer, for example, to knowledge of English and knowledge of written and spoken German, IT (MS Office, especially MS Excel and SAP ERP), knowledge of business functioning, organization, human relations, process approach and technical knowledge. Also, required at this level is completed studies in business administration (at the level of BA and less MA) (the largest number of indications), less frequently in engineering or economy or logistics and SCM. For a logistics controller, these kinds of competences include completion of studies in business administration or business informatics, knowledge of IT (mainly MS Office software, e.g. MS Excel) and excellent knowledge of English.

The second place is occupied by “personal/behavioural competences” for both professions. In the case of SC controller, the following qualities are indicated in the job advertisements, namely, teamwork, excellent organizational skills, organization of work, good client relationship skills, readiness to travel, ability to coordinate with clients and colleagues under pressure, entrepreneurial spirit, result-oriented, independent way of working and ability to work in an international environment. In turn, the “personal/behavioural competences” of the logistics controller are characterized by such issues as a team player, assertiveness, a strong hands-on mentality, good organization of work and approach to process/provision of services.

Third place in the analysis was taken by “functional competence”. Employers require from an SC controller an education with a specialization in controlling, accounting, supply chain controlling or SCM and professional experience in controlling, accounting, reporting, as well as the ability to operate specialist software (Business Intelligence, SAP with financial, controlling and material flow modules, AP and Hyperion Planning). For logistics controllers, the same issues were distinguished as for SC controller but in addition knowledge of cost calculation and pricing models as well as forwarding programs. Moreover, employers placed emphasis on directional education, stressing that a logistics controller should have completed studies in economics with an element of logistics or directly in logistics, controlling or SCM. Importance is also placed on experience in the field of logistics (sometimes specifically, e.g. specialized in waterborne transport or warehousing or in the automotive or trade sector), controlling or controlling logistics. There were also requirements for command of specialist software (SAP with modules such as CO, FI, BO, MM) and knowledge on reporting and forecasting, also knowledge in VBA macro and SQL were desirable.

“Values and ethical competences” are rarely mentioned in advertisements for either logistics controllers or SC controllers. They are referenced as follows: maintaining a friendly atmosphere, i.e. friendly relations, and identifying with the company’s community and its values. The best example of a request for “value and ethical competences” is reflected in the following phrase used in one of the job advertisements: “absolutely loyal and stand with body and soul behind your task and the company for which you will work in the future”.

The next stage of the analysis focussed on meta competences, which for both occupational profiles, related to “self-development” predominately, being an active approach to developing oneself on various levels, i.e. educational and practical, for example, by gaining experience (internships, apprenticeships, other positions). In addition, there is also the desire to travel (learning about new cultures, nationalities), and learning about new technological and business solutions (e.g. a process approach). The competences relating to “communication” are also important in the case of both profiles. Here, it can be distinguished by e.g. the ability to talk to employees of all positions and partners from different companies(usually in English).This characteristic plays a special role in the work of the SC and logistics controller because both specialists not only collect data from other business partners but also provide information at various stages of the organizations and SC (Colicchia et al., 2019). Also, emphasized in job advertisements for these professions is the ability to think analytically – “analysis”. Some small differences between profiles occur in the case of “problem-solving” and “creativity”. Competences relating to “problem solving” are highlighted more frequently for logistics controller (e.g. having a “solving mentality” and having a conceptual, strategic approach or the ability to convey complex facts intelligibly, the solution-oriented way of acting) than for SC controller. In turn, the area of “creativity” is identified more for SC controller and the following examples from the announcements can be indicated, namely, high personal initiative or independence.

4.2 Tasks of the supply chain controller and logistics controller

Meta and core competences enable SC and logistics controllers to carry out their tasks effectively. Their orientation in the SC is to support the management process and ensure its effectiveness and transparency.

For the SC and logistics controller, the tasks from the group “definition” have an advantage. They are, for example, a specified inventory and quality levels, define SC KPIs, defining and implementing measures, defining processes to make global supply relationships between internal manufacturing and logistics units, knowledge building (for SC controller) or construction and development of indicator systems, conception of standardized logistics reporting, development and automation of logistics controlling, development of optimization approaches, preparation of recommendations (for logistics controller).

In the case of other task areas, differences can be observed between the profiles, for example, for SC controller, in second place, “maintaining” (e.g. ensuring the integrity of the MRP, coordinate production in line with forecast, monitor the KPIs of the SC, ensure the continuous development of reporting, coordination of planning in the area of SC management, ensure that customers are impressed by outstanding delivery performance, support national and international customers with their consulting know-how). However, “maintaining” for logistics controller occurs in third place in the analyses and consists of ensuring that the end client is kept up to date regarding potential delays and delivery schedules, ensuring that special certification is obtained for transportation, ensuring data completeness for continuous analysis, support of the sales areas during the offer preparation and final costing, and ensuring optimal material flow planning. In third place with respect to the SC controller, we see “control” (e.g. verification of invoices by means of invoice control, control of planning in the area of SCM, controlling for SC Global Business Centres, Transport Management Centres and Centres of Excellence for Sourcing, control of SC cost blocks, control of the varied planning processes in the SC) and “analysing” (e.g. profitability analyses of production and logistics processes, deriving performance analytics to identify opportunities, deviation analyses, analyse information, ad hoc analyses). Subsequently, the following areas of work can be identified for the described profile, namely, “reporting/information” (e.g. reporting procurement KPIs, communicating the status within the SC to the wider business, preparation of regular and ad-hoc reports, representing the logistics sector in central financial meetings, creation of local and group SC reports), “decision-making/participation in management” (e.g. discussions about costs, advise and coach the SC employees on data acquisition, recommendations to management, active contribution to the optimization of SAP controlling tools, supervise subtasks or management of project teams) and to a lesser extent “planning” (e.g. planning and preparation of the forecast, preparation of investment plans for production and logistics, participation in the budget and planning process).

Evaluating, in turn, the scope of tasks for logistics controller, in second place is seen “analysing” (e.g. analysis of monthly development, analysis and evaluation of the performance indicators of the warehouse, and fleet logistics of various delivery logistics locations, continuous analysis of the intended/actual processes, process cost analyses, operational business analyses on quantities, costs and performance of logistics or preparation of regular statistics). To a lesser extent, there are areas related to “planning” (e.g. planning the shipping of goods and materials, preparation of financial planning and forecasts, forecasting and budgeting, effective and efficient planning, logistics planning, capacity and cost planning in logistics projects), “reporting/information” (e.g. reporting of important logistics figures, preparation of management presentations, reporting of air/sea freight activities, and results for business in Europe, and preparation of monthly and annual statements at branch level) and “decision-making/participation in management” e.g. advising the branch management over financial questions and the corresponding decision templates, close cooperation with immediate supervisors and advice, especially when deciding important issues. The last place was taken by tasks from “control” (e.g. financial control of the logistics centre in an international context, control of the project for capacity expansion).

4.3 Attributes specified in job advertisements in the context of shaping supply chain and logistics controller profiles

On the basis of the radar diagram (Figure 2) of the indicated attributes in the area of core competences in job advertisements, it can be observed that enterprises perceive the importance of “knowledge/cognitive competences” for the SC controller (items from this competence group were the most significant in a given specific job advertisement). “Personal/behavioural competences” and “functional competences”, on the other hand, have the same meaning in the context of their indications in an employer’s job advertisement. The same situation applies to the job advertisements for logistics controller; however, it may be interesting to note that in the case of “values/ethical competences”, slightly more indications occurred in the job advertisements for logistics controller than for SC controller.

Another area of analysis concerns meta competences (Figure 3). In any given job advertisement for SC controller, and for logistics controller, there is a benefit in competences in the area of “self-development”. Also, employers attach importance to competences in the area of “communication” in the job advertisements for both profiles. The differences between indications in the job advertisements occur in the case of competences in the area of “creativity”, where greater frequency is visible in the job advertisements for the SC controller, and in the case of competences, in the area of “problem solving”, in the job advertisements for the logistics controller.

The third area of analysis covers the nature of the tasks, which have to be carried out in companies performing the functions assigned to them (Figure 4).

In the case of job advertisements for SC and logistics controllers, the tasks related to “definition” and “maintaining” dominate. In other areas, there are differences in the context of tasks from a specific area in any given job advertisement. For example, for the SC controller, it is also possible to observe a significant number of indications in the job advertisements for activities in the “decision-making/participation in management” area, while for the logistics controller, in the “planning” and “analysing” areas.

Figure 5 summarizes the importance of competences of both types as well as tasks in the job advertisements for SC and logistics controllers.

4.4 Analysis of the diversity between supply chain and logistics controllers in terms of attributes from the area of competence and tasks

To check the difference between job advertisements for SC and logistics controllers in terms of attributes in the competences and tasks area, a one-way Anova variance analysis test was applied. The one-way Anova analysis of variance, which serves to compare averages in groups, was used to test the relevance of variation in the competences and tasks between the SC and logistics controller as well as within those subgroups. The total variance (variability of results) was divided into the part derived from differences between the subgroups and the part stemming from differences in results within the subgroup. Table I shows that significant differentiation in competences and tasks between the SC and logistics controller subgroups occurs in “creativity”, “problem solving” for the meta competence analysis and “planning”, “control”, “decision-making/participation in management” for the task analysis. For the abovementioned attributes, this means positive verification of the null hypothesis. For the other attributes in the competence and task area, the hypothesis is rejected on the 10 per cent significance level (Table I).