[1. Abramowicz-Gerigk T., Błachuta J., Burciu Z., Granatowicz J., Jacyna M., Kulczyk J., Mazurek M., Nowakowski T., Picińska-Fałtynowicz J., Skupień E., Tubis A., Werbińska- Wojciechowska S., Więckowska M., Winter J. WP5 of European project INVAPO “Upgrading of Inland Waterway and Sea Ports” - coordinated by Gdynia Maritime University, Gdynia 2014.]Search in Google Scholar
[2. Abramowicz-Gerigk T., Burciu Z. 2016. The influence of regular river navigation in special protection areas of NATURA 2000 Network. Journal of KONES. Vol. 23 No. pp 9-16.]Search in Google Scholar
[3. Abramowicz-Gerigk T., Burciu Z., Krata P. “Steering system for a waterborne inland unit “ Patent application P. 420664. 2017]Search in Google Scholar
[4. Abramowicz-Gerigk T., Burciu Z. Stefurak W. Coupling system of a pusher and waterborne barge. Patent application P. 420684. 2017]Search in Google Scholar
[5. Assessment of plans and projects significantly affecting Natura 2000 sites Methodological guidance on the provisions of Article 6(3) and (4) of the Habitats Directive 92/43/EEC. http://ec.europa.eu/environment/nature/natura2000/management/docs/art6/natura_2000_assess_en.pdf]Search in Google Scholar
[6. Assumptions for the plans of inland waterways development in Poland in 201602020 with the perspective to 2030. Ministry of Maritime Economy and Inland Navigation. Document accepted by the Council of Ministers 14 June 2016.]Search in Google Scholar
[7. “Blue Book”. Second draft of the Inventory of Main Standards and Parameters of the E Waterway Network (“Blue Book”), 2016. Third revision Working Party on the Standardization of Technical and Safety Requirements in Inland Navigation Forty-ninth session, Geneva, 22-24 June 2016. Item 5 (b)]Search in Google Scholar
[of the provisional agenda Inland waterways infrastructure. https://www.nece.org/fileadmin/DAM/trans/doc/2016/sc3wp3/ECE-TRANS-SC3-WP3-2016-inf_30e.pdf]Search in Google Scholar
[8. Burciu Z., Gąsior A. 2015. The analysis of the possibility of revitalization of the Lower Vistula river based on INWAPO European Project. Scientic Journals of Gdynia Maritime University No. 92/2015, in Polish.]Search in Google Scholar
[9. EMMA - Enhancing freight Mobility and logistics in the BSR by strengthening inland waterway and river sea transport and promoting new international shipping services - project funded by the Interreg Baltic Sea Region Programme 2014-2020.]Search in Google Scholar
[10. Keuning F. W. Motion control of small fast boats in following waves. SNAME Symposia Papers. 2016. http://www.sname.org/HigherLogic/System/DownloadDocumentFile.ashx?DocumentFileKey=ef3cb5a3-350b-e385-d7a2-a91fddd0589a.]Search in Google Scholar
[11. King K. K., Yasukawa H., Hirata N., Kose K. Manoeuvring simulations of pusher-barge systems. Journal of Marine Science and Technology, 2008, Volume 13, Issue 2 pp. 117-126.10.1007/s00773-007-0267-4]Open DOISearch in Google Scholar
[12. Kulczyk J., Werszko R. Influence of ship motion on waterway backward current velocity. Polish Maritime Research, Special Issue 2006/S2.]Search in Google Scholar
[13. Liu J., Hekkenberg R., Rotteveel E. A Proposal for Standard Manoeuvres and Parameters for the Evaluation of Inland Ship Manoeuvrability. European Inland Waterway Navigation Conference 2014, Budapest, Hungary.]Search in Google Scholar
[14. PIANC Report N° 99. 2008. Considerations to reduce environmental impacts of vessels navigation. Inland Navigation Commission. www.pianc.org.]Search in Google Scholar
[15. Rabant H., Habel M., Babiński Z. Transport of the oversized goods on the Vistula waterway. The basic waterway parameters and main difficulties. Works of Commission Of Communication Geography PTG 2016, 19(3), pp. 7-17, in Polish.]Search in Google Scholar
[16. Resolution on acceptance of “Assumptions for the plans of inland waterways development in Poland in 201602020 with the perspective to 2030”. https://www.premier.gov.pl/wydarzenia/decyzje-rzadu/uchwala-w-sprawie-przyjecia-zalozen-do-planow-rozwoju-srodladowych-drog.html.]Search in Google Scholar
[17. Smith W. J. 1959. Steering connection between a barge and a pusher tug. US Patent 3035537 A]Search in Google Scholar
[18. Tabaczek T., Kulczyk J., Zawislak M. Analysis of hull resistance of pushed barges in shallow water. Polish Maritime Research 1(51) 2007, Vol 14, pp. 10-1510.2478/v10012-007-0002-4]Search in Google Scholar
[19. Tokumaru T., Dimotakis P. E. The lift of a cylinder executing rotary motions in a uniform flow. J. Fluid Mech. (1993), vol. 255, pp. 1-10]Search in Google Scholar
[20. http://www.vdvelden.com/products/product/rotor-bowrudder.html]Search in Google Scholar
[21. http://www.articouple.com/5-articouple_fr.html]Search in Google Scholar
[22. http://www.fv-tech.com]Search in Google Scholar