1. Introduction
According to the report of the Global Multimodal Freight Transportation Market (2020–2025) “…with the increasing global economic integration, the sustainable development of the world economy and society needs the support of an efficient freight transportation system. By relying on two or more modes of transportation, multimodal transport can substantially improve transport efficiency and reduce transportation costs for the complete process integration organization transportation service. According to statistics, multimodal transport can improve transportation efficiency by 30%, reduce cargo damage by 10%, reduce transportation costs by 20%, reduce highway congestion by more than 50%, and promote energy savings and emissions reduction by more than one-third” [
1]. The assumptions of the White Paper focus on the same guidelines; however, their implementation is not easy [
2]. Considering the growing interest in multimodal transport, it is necessary to realize the problems and methods to overcome the most important challenges related to multimodal transport management. Problems emerging within cross-border areas become even more important in this case [
3]. In this regard, the European Grouping of Territorial Cooperation TRITIA, including the Moravian–Silesian region in the Czech Republic, the Silesian Voivodeship in Poland, and the self-governing region of Žilina in Slovakia, undertook the research under the TRANS TRITIA project aimed at increasing awareness of the problems of freight transport and improving cooperation between regional authorities responsible for shaping the regional transport policy. The TRANS TRITIA project focused on cross-border, trans-national and interregional cooperation to strengthen economic and social cohesion and achieve the objective specified in the strategy “Europa 2020” [
4], Towards a Sustainable Europe by 2030 [
5] and White Papers EU [
2]. Activities undertaken within the scope of the international cooperation were aimed at developing a multimodal transport development strategy that focused on creating an ecosystem facilitating a noticeable increase in flow performed within multimodal transport frameworks [
6]. Taking into account the results of the project and the formulated vision, the authors undertook further research on the stakeholders of such an ecosystem.
Within the last two decades, the ideas of ecosystems have become more important for organizations, especially due to the increased demand for complex, integrated solutions that require from companies the integration of knowledge, resources, and opportunities of various companies, sectors and fields [
7,
8,
9]. Such increased demand, in combination with the recent advancements in information technology or the Internet-of-Things (IoT), used the opportunity of cocreating the value of companies from different sectors [
10,
11]. Understanding the ecosystem is understanding its limits. This paper assumes a differentiation between ecosystems based on ecosystem objectives and stakeholder roles who can be treated as a common benchmark. The Valkokari concept was used in the research, which was focused on three different types of economic ecosystems: business, innovation, and knowledge. It was assumed that at their junction, the actors of the ecosystem are able to continuously produce new results, combining artefacts, skills, and ideas as well as various business results, innovation, and knowledge [
12]. The adopted approach is justified by the complexity of the multimodal transport ecosystem. Interactions between stakeholders in the business ecosystem oriented to economic results and business relations assume sharing the logistics infrastructure for the growth of added value generated by multimodal transport. The innovation ecosystem should focus on co-creating innovation in multimodal transport and the knowledge ecosystem on creating new knowledge and its exploration within the scope of freight flows within cross-border areas.
The objective of the research was the stakeholders’ analysis and identification of their roles in the ecosystem of multimodal freight transport within the Polish–Czech–Slovak cross-border area. The conceptualization of the multimodal freight transport ecosystem was essential to achieving the objective. Thus, this paper begins with the analysis of contemporary approaches in the field of ecosystems, especially knowledge, business, and innovation ecosystems. In these ecosystems, particular attention has been focused on stakeholders and their roles. The assumptions of ecosystems were also searched for in the literature in the area of multimodal transport. The research methodology is then discussed, indicating the impact of the results of the TRANS TRITIA project on the research proposed in this paper.
The results of the research on multimodal transport development obtained within the TRANS TRITIA project have led to the preparation of a strategy for the development of multimodal freight transport in the TRITIA cross-border area and detailed action plans: cross-border action plans and sectoral action plans (railway, inland waterways, intermodal logistic terminals). The results of the project work became an inspiration to further research on developing the formulated vision of the multimodal transport ecosystem, that is: creating an ecosystem for multimodal freight transport in the Tritia area. The holistic ecosystem model was based on the Valkokari concept. It has been extended to the study of stakeholders, leading to the determination of their role within the ecosystem. As a result, this article indicates the objectives of ecosystems, identifies the stakeholders of individual ecosystems, assigns them a role, and determines the relationship of the leader towards each of the stakeholders. Detailed research questions are given in the methodological part of the paper. Among the methods used, apart from literature analyses, stakeholder analyses were used, which were based on expert assessments. In addition, during the workshops with experts, the specific objectives of ecosystems (business, knowledge and innovation) were defined, the roles of stakeholders in the ecosystem were discussed, and the project proposals necessary to implement the adopted vision in the TRITIA cross-border area were verified.
3. Materials and Methods
The multimodal transport ecosystem is a vision of freight transport within cross-border areas that has been identified as a result of the research project INTERREG TRANS TRITIA. The study concerned the cross-border region of Poland, Slovakia, and the Czech Republic associated in the European Grouping of Territorial Cooperation TRITIA (EGTC TRITIA). It was established on 25 February 2013 by the decision of the Minister of Foreign Affairs of the Republic of Poland No. 1/2013, named EGTC TRITIA and entered into the Register of European Groupings of Territorial Cooperation administered by the Ministry of Foreign Affairs of Poland. The decision to establish the EGTC TRITIA was already taken in 2009 by the leaders of local governments from the Moravian–Silesian region (Cz), the Opole Voivodeship (PL), the Silesian Voivodeship (PL) and the Žilina self-governing region (SK), and based on this decision, steps were taken to establish the grouping. The decision of the regional authorities followed the positive experience of cross-border and interregional cooperation and its impact on the quality of life of the inhabitants of the cross-border areas.
The issue of multimodal transport within the TRITIA cross-border area was raised by Kramarz, Dohn, Knop, Przybylska (2020) in the context of the multimodal transport development scenario within cross-border areas. In the multimodal transport development scenarios proposed in the publication, the multimodal transport ecosystem is a revolutionary scenario. The transport ecosystem presents various visions of a business system, change in the TSL sector, and the results of such changes. The transport ecosystem is a vision that necessitates organizational changes, new network agents, such as the observatory of multimodal transport, and a coordinator.
Stages preceding the development of such a vision was, among other things, the SWOT analysis, combining the TRITIA region potential and weaknesses with the close and distant surrounding factors affecting the freight transport development in this area [
6]. Based on the performed studies, the same stimulants of multimodal transport development in the cross-border area have been shown both in Poland, the Czech Republic, and Slovakia, meaning:
Economical—reduction in expenses for the service, longer life of trucks, lower cost of road tolls, lower consumption of road surfaces.
Ecological—less pollution of the natural environment, lower emissions, reduction in noise in urban areas.
Social—increasing road safety, increasing the quality of life in urban areas by reducing the external costs of transport.
The main threats resulting from the SWOT analysis related to the multimodal freight transport development within cross-border areas: legislative delays and delays in the implementation of the adopted strategies, improper proposals in the state and regional budgets related to the division of financial resources between vehicular transport and other branches of transport, obsolete railway infrastructure as well as insufficient quality of waterways. The main opportunities identified by all three countries included the strategic position of transport, the stability of the European policy that includes intermodal transport, the intensification of cooperation between stakeholders of multimodal transport development within the cross-border area, the strong development of containerization and other standardized solutions, the development of information technologies and telematics, and increasing external costs of road transport. The TRITIA cross-border area differentiates with strengths including: the dynamics of the logistic services, the market, available resources, including the number and location of intermodal terminals, the number of multimodal operators, access to different branches of transport (including inland navigation and freight air transport), knowledge resources in the region (large number of universities educating on the faculties of transport and logistics), research institutions, and increasing flows between studied countries. The weaknesses of the TRITIA region in the context of multimodal freight transport development include low social awareness of the meaning of multimodal freight transport for the environment and society, insufficient supply of qualified low-level employees, a low level of innovation within logistics services in the region, and a long lead time of a transport service within multimodal transport comparing to the lead time related to the same service performed using only vehicular transport.
The multimodal transport ecosystem as a vision of freight transport development has been built in the project using detailed strategic objectives assigned to six perspectives of the Balanced Scorecard. The process of creating and implementing the Balanced Scorecard is used both at the stage of preparing the multimodal transport development strategy within the TRITIA area and the operational plans presenting concrete projects that will be translated into the implementation of the assumed strategy. According to the adopted methodology, the identified strategic goals have been detailed and a map of objectives within the perspective of the Balanced Scorecard has been created [
93,
94]. The results of these studies are the basis for the adoption of VISION: creating the ecosystem for multimodal freight transport in the TRITIA area, and MISSION: the sustainable development of multimodal freight transport in the cross-border area, based on the support system of TRITIA territory, to increase the functionality, effectiveness, complementarity, cooperation, and regulation of multimodal freight transport.
The performed literature research aimed at the conceptualization of the multimodal transport ecosystem within the cross-border area and the adopted assumption of a holistic approach are the basis to formulate the research questions:
What types of ecosystems are part of the multimodal transport ecosystem within cross-border areas?
What is the role of stakeholders within individual multimodal transport ecosystem subsystems?
What kind of projects would strengthen the vision of the multimodal freight transport ecosystem within the TRITIA cross-border area?
A model of empirical research has been developed when searching for the answers to the aforementioned questions (
Figure 1).
The first stage of the research was the conceptualization of the multimodal freight transport ecosystem model (
Figure 2). The model includes a holistic approach combining the business ecosystem with the innovation and knowledge ecosystem. Such a model approach of the ecosystem decided about the following stages wherein the stakeholders’ analysis was performed, breaking it down to the business ecosystem, innovation ecosystem, and knowledge ecosystem (
Figure 2), and as a consequence, the results obtained at the level of individual ecosystems have been combined into a synthetic knowledge for the holistic multimodal transport ecosystem.
The basis for ecosystem construction is the characteristics of its actors and the relations between them. An efficient tool within this scope are the developed methodologies of stakeholder assessment that were used in the paper. As a result, stakeholder assessment for the multimodal transport ecosystem was made based on three research methods: questionnaire method, expert opinions, and expert panel.
In the first place, stakeholder groups for each multimodal freight transport ecosystem subsystem were identified. Groups of stakeholders were identified in the cycle of workshops within the scope of the TRANS TRITIA project. Then, the stakeholder groups were subjected to further analysis. To carry this out, a questionnaire were developed and passed to 18 experts having adequate competence resulting from the knowledge of multimodal transport issues and its development as well as the considered cross-border area. The experts were scientists and representatives of self-government and institutions responsible for financing transport-related projects. The experts were representatives of all three countries. In the questionnaire, the participants were asked to analyze the indicated stakeholders in terms of several criteria (
Table 2).
Averaged results of the expert’s assessment allowed for developing stakeholder maps in terms of influence strength and predictability criteria as well as in terms of influence strength and interest level criteria for business, innovation and knowledge ecosystems. The stakeholder maps were discussed on 3 workshops with experts. The inclusion of each stakeholder on two maps for each ecosystem was the basis of role assignment. The stakeholder roles in the ecosystem depend on the location within individual quarters on the stakeholder maps. Considering current work within the field of stakeholder roles in ecosystems, the authors proposed an elaboration of the so far presented roles and their adaptation to multimodal transport ecosystem stakeholders. The identified stakeholder roles included a leader of ecosystem development. Leaders were assigned tasks related to all stakeholder roles within ecosystems. At the same time, a gap was identified at the junction of all three ecosystems. Next, based on the identified gaps, organizational projects were proposed that are to support multimodal transport ecosystem development within the TRITIA cross-border area. The projects that strengthen the implementation of the multimodal transport ecosystem vision have been selected by comparing the identified challenges resulting from a holistic approach to the multimodal transport ecosystem with the proposal of projects developed at the stage of study within the INTERREG project for the implementation of the multimodal transport development strategy within the TRITIA area.
4. Results—Model of Multimodal Transport Ecosystem for the TRITIA Area-Tri-System Concept
From the standpoint of the ecosystem, holism is especially important and must be related to the recognition of environmental, social, and economic factors, especially in the context of transport. Without consideration of safety, durability as well as social and economic effectiveness, it is difficult to notice the significant development of the whole ecosystem, especially because the external results are considered within each standard analysis of transport investment costs and benefits.
Considering the definition of ecosystems, the authors assumed that the multimodal transport ecosystem within the TRITIA cross-border area is a peculiar economic community, assembled of cooperating logistics organizations, infrastructure administrators, forwarders and receivers of material flows, state and regional authorities, universities, business-related institutions and the remaining stakeholders creating a holistic system together, continuously improving due to new services, the exchange of knowledge, development of technology, including information technology, strengthened by competence centers. The ecosystem is based on three mutually strengthening pillars: business, innovation, and knowledge flow. The basis for the description of the multimodal transport ecosystem model is its components: ecosystem objectives, stakeholders as well as their roles and relations between them.
Such an interpretation points to an important role of the central organization/leader of the multimodal transport ecosystem within the TRITIA cross-border area. Such an organization, in the context of the adopted multimodal transport model, should allow for a smooth combination of three ecosystem perspectives: business, knowledge, and innovation. The literature interpretation of the ecosystems allowed for adopting assumptions for the multimodal transport ecosystem model (
Table 3).
Economic results and business relationships between entities are underlined in the literature as devoted to business ecosystems. Innovation ecosystems are focused on mechanisms and policies favoring the creation of innovation. Knowledge ecosystems are the consequence of creating new knowledge based on common research works, cooperation, or development of the knowledge base. Each of these ecosystems plays a special role in creating conditions for the development of multimodal transport. The crossing of the business and innovation objectives as well as the generation and flow of knowledge causes the holistic approach to be the only way to combat the problems of multimodal transport within the TRITIA area.
The multimodal freight transport system involves many stakeholders who have a strong influence on the development of transport, and who are also affected by this development. Considering the perspective of cross-border freight transport network, the set of stakeholders is still growing. The stakeholders should include all participants involved in the flow of goods between countries, both regionally and in terms of individual countries, as well as EU, international and national institutions and bodies (in countries outside the TRITIA region), committees, associations and various forms of agreements between countries.
The result of workshops performed within the scope of the TRANS TRITIA project was the identification of stakeholders in each country.
Intermodal transport in Poland is at an early stage of development. Poor promotion of this solution means that road transport is currently the most commonly used solution. Factors inhibiting the development of intermodal transport are primarily: the lack of legal regulations, the poor condition of infrastructure, the uneven location of terminals in Poland, high costs of the construction and modernization of transhipment terminals, a lack of cooperation between carriers, and a limited number of specialized rolling stock. However, the most important factor is the poor condition of the infrastructure. Changing this state of affairs requires an intensification of actions on the part of various stakeholder groups, including a special role in the actions of the authorities that are responsible for creating the transport policy. Intermodal transport in Poland is carried out by land–sea and rail-road transport using containers, which constitute 98% of all integrated loading units.
The most important players in the Śląskie Voivodeship are three entities: ŚCL SA in Gliwice on the Port of Gliwice, MPL Katowice in Pyrzowice, and Euroterminal Sławków Sp. z o.o. Due to their potential, they can be seen as future hubs for goods exchange in multimodal transport. In addition, key stakeholders can be identified: logistics operators, transport companies from various transport branches, managers of interbranch reloading terminals.
The most important stakeholders in the Silesia–Moravia are: logistics operators, carriers (transportation companies—road, rail, inland, waterways, air), manufacturing and trade companies, national authorities (central policy makers), regional authorities (regional policy makers), and local governments.
The most important stakeholders in the Žilina region are: carriers (transportation companies—road, rail, inland waterways, and air), manufacturing and trade companies, roads administration, railway administration, reloading terminals administration, national authorities (central policy makers), regional authorities (regional policy makers), and local governments.
A detailed list of stakeholders, cohesive for all countries, is presented in
Table 4.
When analyzing the stakeholders given in
Table 4, the authors adopted the approach presented in the literature [
95,
96,
97,
98], within the scope of which stakeholder maps are built. According to these assumptions, as a result of the research, six maps have been developed: two maps for each of the ecosystems (business, innovation, and knowledge) (
Figure 3,
Figure 4,
Figure 5,
Figure 6,
Figure 7 and
Figure 8). In each of the ecosystems, the first map included the division of stakeholders based on two criteria: the strength of influence and predictability of stakeholder behavior; on the second map, the strength of influence has been presented again, however the second parameter was the level of stakeholder interest. When assigning stakeholders to individual parts of the map (to individual quarters: I–IV), the authors made the following assumptions:
- -
I quarter of the map—strength of influence within the range (2.5–5> and the level of interest/degree of predictability within the range (0–2.5>;
- -
II quarter of the map—strength of influence within the range (0–2.5> and the level of interest/degree of predictability within the range (0–2.5>;
- -
III quarter of the map—strength of influence within the range (0–2.5> and the level of interest/degree of predictability within the range (2.5–5>;
- -
IV quarter of the map—strength of influence within the range (2.5–5> and the level of interest/degree of predictability within the range (2.5–5>.
Due to the fact that the strength of influence may have both positive and negative character, the aforementioned numbers of individual parts of the map apply to the positive influence. Similarly, as indicated above, the quarters of the map were marked for the negative impact of stakeholders, only the symbol “b” was added to the numbers of the quarters (quarter Ib, IIb, IIIb, IVb). The numbers assigned to the stakeholders (
Table 4) were used for their presentation in the figures (
Figure 3,
Figure 4,
Figure 5,
Figure 6,
Figure 7 and
Figure 8).
In the business ecosystem, four out of 34 stakeholder groups have been identified as having an inhibitory effect on the development of multimodal transport (11.8%). Among them, one group (road carriers) is included in the quarter of the fourth map, i.e., characterized with a high strength of influence and high predictability of behavior. A total of 29 groups of stakeholders (85%) positively affected the impact of multimodal transport development (one entity is recognized as not affecting the ecosystem). From among them:
13 groups (38.2%) are in the IV quarter of the map which means a high strength of influence and high predictability of behavior;
Eight groups (23.5%) are in the I quarter of the map which means a high strength of influence and at the same time low predictability of behaviors. It is worth noticing that as many as five groups are located at the boundary level between the I and IV quarters of the map (predictability at level 2.5);
Three groups (8.8%) are in the II quarter of the map which means a low strength of influence and low predictability of behavior;
Five groups (14.7%) are in the III quarter of the map which means a low strength of influence and high predictability of behavior.
Within the business ecosystem, considering the strength of influence parameters in relation to the level of stakeholder interest, the group No. 22 is especially worth noticing (regional society). This results from the fact that this group negatively affects the multimodal transport development (even though with low strength); however, what is more important is that it has a significant interest in the development of this type of transport. One may presume that this group is not fully aware of the road transport effects and the benefits multimodal transport may generate. The level of interest of the remaining three groups decelerating the multimodal transport development is low, as expected. In the case of stakeholders positively affecting the multimodal transport development, 15 groups have a high level of interest in its development. From among them, three important groups of stakeholders must be noticed in the case of which both these parameters gained the maximum rating. However, 14 groups are stakeholders of a low level of interest in multimodal transport development.
According to the performed stakeholders’ classification concerning the innovation ecosystem, only one group (road carriers) has been identified as decelerating innovation in multimodal transport. Its behavior has been recognized as predictable with simultaneous low strength of influence. All remaining entities have been identified as positively affecting the innovations. From among them:
10 groups (29.4%) are in the IV quarter of the map which means a high strength of influence and high predictability of behavior;
Six groups (17.6%) are in the quarter of the map which means a high strength of influence and at the same time low predictability of behavior;
Nine groups (26.5%) are in the II quarter of the map which means a low strength of influence and low predictability of behavior;
Eight groups (23.5%) are in the III quarter of the map which means a low strength of influence and high predictability of behavior.
Within the innovation ecosystem, considering the map based on the strength of influence and level of interest parameters, the group identified as negatively affecting innovation development in multimodal transport has been at the same time indicated as not having the interest in its development. In case of the remaining stakeholders (of positive impact), 19 groups (55.9%) have a high level of interest in the development of innovation. The remaining 14 groups (41.2%) are stakeholders of low level of interest. However, as many as six of them are at the boundary between low and high levels of interest.
Within the knowledge ecosystem, there are no stakeholders negatively affecting the development of knowledge in the multimodal transport. However, one entity has been identified as not affecting the mentioned knowledge. From among the remaining 33 groups of stakeholders:
Eight groups (23.5%) are in the IV quarter of the map which means a high strength of influence and high predictability of behavior;
Eight groups (23.5%) are in the I quarter of the map which means a high strength of influence and at the same time low predictability of behavior;
10 groups (29.4%) are in the II quarter of the map, which means a low strength of influence and low predictability of behavior;
Seven groups (20.6%) are in the III quarter of the map which means a low strength of influence and high predictability of behavior.
From among all 34 analyzed stakeholders in the knowledge ecosystem, the vast majority has a high level of interest in the development of knowledge related to multimodal transport (22 stakeholders which is 64.7%). From among the remaining 12 stakeholders, four of them are at the boundary of a low and high level of interest. This shows the great importance of access to knowledge about the development and activities undertaken in multimodal transport for a large part of the stakeholders, regardless of the magnitude of their influence strength.
Using three dimensions of stakeholder evaluation: strength of influence (positive and negative), level of interest, and their predictability as well as their characteristic features, 16 roles have been proposed the stakeholders play in the ecosystem—as shown in
Figure 9.
Characteristics of the stakeholders’ role in the ecosystem were presented in
Table 5. Except the name and characteristics of the role (columns 2 and 5), the stakeholder place within the identified map quarters that analyze the stakeholders has been presented (column 3: maps—
Figure 3,
Figure 5 and
Figure 7, column 4: maps—
Figure 4,
Figure 6 and
Figure 8).
The roles of stakeholders resulting from three estimates: predictability, strength of influence, and level of interest have been assigned to each participant in the innovation ecosystem (IE), business ecosystem (BE), and knowledge ecosystem (KE) (
Table 6).
A list of assigned roles is the opportunity to group the stakeholders and select these participants who take the role of a leader in more than one ecosystem (
Figure 10). The numbers shown in
Figure 10 define the stakeholders (in line with
Table 4)
Each of the studied types of multimodal transport ecosystem has its development leaders. In the business ecosystem, it is the logistics center, intermodal terminal, logistics operator, railway carriers, and inland navigation carrier. These organizations create added value in the multimodal transport ecosystem and at the same time are the most susceptible to fluctuations in the multimodal flows. They also have the potential to directly affect organizations within the supply chain to increase multimodal flow through incentives for manufacturers and trade organizations. Within the business ecosystem, an important role is played by crucial players who also have a significant interest in the development of this ecosystem and at the same time have a high strength of influence on its development. However, their behavior is not unequivocal and predictable like in the case of development leaders. Infrastructure managers or trade and service companies are such participants in this ecosystem. Development leaders in this ecosystem should include in their policy the crucial role of these stakeholders who must be supported in decisions oriented on multimodal transport development. Risk related to the loss of trust of such participants entails major consequences for the whole ecosystem. However, the ecosystem is supported by stakeholders’ named business patrons in the multimodal transport ecosystem, and include information technology services providers, potential investors, transport associations, EU institutions, and regulatory institutions as well as schools and universities. Support for these participants is crucial for the development of the whole ecosystem.
In the innovation ecosystem, development leaders including R&D organizations, experts and specialists, railway carriers, information technology providers, logistics operators, EU institutions, governments, and universities strive to increase the level of multimodal transport innovativeness and at the same time feel significant benefits from implementing the innovations. Support for the development of innovation oriented not only on multimodal transport but also on the logistics sector in the broad sense is essential in the context of a low innovativeness index of logistics services. Such support is provided by patrons in the multimodal transport innovation ecosystem, such as development agencies and technological observatories. Technological observatories are created for the system support of companies, universities, research and development entities, or business-related institutions. Their important element is boosting the cooperation and implementation of solutions that would level the problem of insufficient mechanisms linking the scientific research with the ability of companies to absorb new technologies, products, or innovative solutions. They can be molded as web-based monitoring tools that provide international, national, or regional decision makers and business stakeholders with quantitative and qualitative information on the implementation of key technologies. Based on the literature review [
99,
100,
101,
102], the observatories are usually responsible for developing an exhaustive set of indexes at the regional, national, and international level for the purposes of monitoring, producing and commercializing new knowledge based on specified technologies. They perform a detailed analysis related to the way individual regions/countries consider value chains related to the implementation of key technologies, starting from technology up to commercialization. In addition, they regularly analyze emerging or fast-growing technology-based products and their value chains, key actors, and constraints. Their roles may also include orders within the scope of taking specific political and legislative activities to support new initiatives.
However, within the knowledge ecosystem, information technology services providers, experts and specialists, governments, and universities are the leaders. These participants build a system of knowledge management related to multimodal transport in the region. The system is not integrated so far. Attempts to integrate the system and the gaps present in it have been shown by experts responsible for the implementation of the TRANS TRITIA project. During the project implementation, players critical to the whole knowledge management system have emerged, who are not willing to share the knowledge. The key role of development leaders will therefore be to make these players aware of the benefits of the knowledge ecosystem, which will also be fed into their databases. Knowledge patrons such as EU institutions are the support of the ecosystem development. The array of stakeholder profiles is disturbing for this ecosystem, especially the sole player identified so far as a knowledge patron. At the same time, a significant number of players specified as beneficiaries can be noticed in the ecosystem.
Table 7 includes the main challenges put before leaders in relation to individual (identified in the research) stakeholder groups selected according to the assigned roles.
The main problem representing the basic challenge in the cross-border freight transport network is the missing coordination of flows. Actors identified within individual regions creating the TRITIA cross-border area cooperate with each other to a medium or low degree, and do not take common initiatives. Definitely, a low level of cooperation can be noticed between the stakeholders of different countries. Thus, building the structure and mechanisms of coordination in the cross-border freight transport network in the TRITIA cross-border area is a fundamental challenge in the development of cross-border freight transport. This challenge is related to the problem of information flow and knowledge sharing between individual internal stakeholders. The reluctance of network actors to share knowledge and experience makes it difficult to undertake such initiatives that enable the sustainable development of the freight transport system in cross-border areas. Therefore, the second challenge in the area of stakeholders of cross-border freight transport is to build a system for collecting, processing, and sharing knowledge. It is necessary for the effective coordination of flows in the cross-border freight transport network.
According to the theoretical basis of ecosystems, leaders are the players responsible for coordination. Looking holistically at the multimodal transport ecosystem in a cross-border area, thus taking into account the combined ecosystem of business, knowledge and innovation, leaders are expected to link these three ecosystems through the ability to coordinate them. The conducted research shows that currently there is no entity that is a development leader in all three ecosystems. On the other hand, leaders were identified at the junction of the two ecosystems in all combinations resulting from the holistic approach.
At the interface of the innovation and knowledge ecosystems, these are universities, EU institutions, experts, and specialists, and IT service providers. At the junction of the innovation and business ecosystems, these are railway carriers and logistics operators. On the other hand, at the junction of the knowledge ecosystem and the business ecosystem, these are logistics centers and reloading terminals.
5. Discussion
The role of development leaders integrating and coordinating two ecosystems is essential. However, the noticeable lack of a leader who has the predisposition to coordinate and integrate all three ecosystems is a factor that threatens the sustainable development of the multimodal transport ecosystem in the TRITIA cross-border area. Therefore, the concept of participants who will ensure the integration, coordination, and monitoring at the junction of the three ecosystems was presented. These participants are the Multimodal Transport Coordinator in the TRITIA cross-border area and the Multimodal Transport Observatory in the TRANS TRITIA cross-border area.
In the role of the coordinator in the network, the strength of influence on the other participants is important. Therefore, in the holistic approach to the multimodal transport ecosystem, it was assumed that the coordinator must be a development leader in all three ecosystems. The network coordination theory presents an effective approach to streamlining business processes within the networks of cooperating organizations, including supply networks [
103]. In the literature, the coordinator is indicated, inter alia, as a key link in the marketing communication system of organizations cooperating in the region and country [
104], an entity connecting the activities of cluster participants [
105], as well as a network orchestrator [
106], i.e., an entity combining the competences of various organizations for the implementation of network tasks, creating added value and generating innovative solutions. The coordinating function is also assigned to the flagship companies of the network [
107]. In this sense, the coordinator is often assigned the role of the synchronization (also at the operational level of scheduling) of processes in the network.
The increasing importance of the coordinator is also noticed in complex transport systems. The indicated scope of coordination in such systems varies, but usually concerns a precisely defined area. In particular, the importance of coordination in the implementation of infrastructure projects in various modes of transport is indicated [
108]. Another area, currently strongly developed in the research, is the coordination of transport routes for many participants of the road transport network [
109]. This issue is particularly important and topical due to the strong development of e-commerce and with it the increased and fragmented cargo flows by road transport. The TRANS TRITIA project proposed more comprehensive solutions for the coordination of multimodal freight transport networks. Kramarz et al. [
3] in an earlier publication indicated that the coordinator is a solution necessary to implement the assumptions of both the proactive scenario and the reactive development of multimodal transport in the TRITIA region. In this concept, the coordinator is understood as an organizational unit anchored at the TRITIA association, whose task is to:
process knowledge about material flows carried out in the TRITIA area in various modes of transport, as well as share this knowledge with stakeholders;
stimulate solutions and projects within the development of multimodal transport that support innovation and sustainable development;
initiate projects to reduce transport time with the use of non-road modes of transport, as well as reduce delays and improve the flexibility of material flow through these modes of transport;
model material flows in the cross-border area based on knowledge resources and develop new development scenarios in line with changes in the environment of the multimodal freight transport network in the TRITIA area;
support and strengthen the cooperation of organizations implementing goods flow;
communicate the participants of the multimodal transport system to the closer and further environment.
Among the detailed projects proposed as part of the TRANS TRITIA project results, which are important for the development of multimodal transport in the TRITIA area, the following were indicated:
Modelling of logistics center networks and multimodal terminals;
Multimodal transport innovation centers;
Multimodal transport system simulation model.
However, when analyzing the challenges faced by the coordinator integrating the three ecosystems, these challenges must include building a knowledge management system and the development of a platform similar to a freight exchange dedicated to participants in multimodal transport.
The coordinator’s model cannot function properly without a developed knowledge management concept in a multimodal transport network. The overall concept of the coordinator’s functioning requires systematic monitoring of the network and the collection of information and data obtained by a logistics observatory.
The role to be played by the logistic observatory in the multimodal transport ecosystem mainly concerns the observation of technological and market trends in the development of multimodal transport in the TRANS TRITIA cross-border zone. The observatory is to respond to the specific needs of stakeholders operating in the multimodal transport ecosystem in the Śląskie Voivodeship, Opolskie Voivodeship, the self-government of the Žilina region and the Moravian–Silesian region in terms of supporting and tracking the development of multimodal transport, positioning key technological areas and assessing the effectiveness of development activities.
The activities of the observatory will include the collection and processing of specialist knowledge on technological and infrastructure areas, monitoring the implementation of multimodal transport development strategies, identifying technological trends and infrastructure development, as well as assessing the potential of the endogenous TRANS TRITIA region in terms of multimodal transport development. The basic tasks of the observatory will include:
mapping the multimodal transport system in the territory of TRANS TRITIA;
mapping the relationships within the multimodal transport network in the territory of TRANS TRITIA;
the assessment of transport and logistics potential;
cooperation for the development of transport and logistics in the territory of TRANS TRITIA;
monitoring the development of the TEN-T network as well as line and point infrastructure (roads, railways, inland waterway networks, multimodal terminals);
lobbying for the creation of an intergovernmental organization guaranteeing freedom of navigation and equal treatment of all flags on the Oder;
the comparison of the use of external elements in freight transport, including charges for the use of transport infrastructure; development of maps of pilot projects before and after full implementation of external elements (in the area of TRANS TRITIA).
Among the projects that have been proposed as necessary for implementation as part of the implementation of the multimodal transport development strategy in the TRANS TRITIA area, the following can be distinguished:
The establishment of the Oder Commission;
The concept of determining the external costs of freight transport;
Analysis of disruptions in freight transport resulting from shared infrastructure;
A freight transport monitoring and data collection system.
In addition to the above-mentioned projects, within the indicated gaps, the necessity to implement a new project concerning the creation of a communication system for the multimodal transport ecosystem was proposed.
The planned evolution of the multimodal transport ecosystem requires the implementation of the indicated projects. At the same time, this assumption is the main limitation of the adopted concept. Difficulties in obtaining funds for the implementation of the indicated projects may disrupt the coherent development of all three types of ecosystems.