METHODOLOGICAL FOUNDATIONS FOR THE FORMATION OF A LOGISTIC APPROACH IN TRAMP TRANSPORTATION MANAGEMENT
Abstract and keywords
Abstract (English):
The tramp trade first took off in Britain around the mid-19th century .Trump shipping occupies 80% of the total world ship ping market and cargo delivery, which forces ship ping companies to constantly develop their service and quality of services. To do this, it is necessary to develop existing and develop new methods of a logistic approach to tramp transportation management. This isa complex process that requires systematic work and indepth analysis of the ship ping market. There are several reasons for shipping companies todevelop and implement transport logistics methods. These methods are competition in the tramp transportation market, reduction of rates, implementation and organization of these transportation. The first and main stage of application is the direct development of the logistics system[l]. Then, for the integration and well-coordinated interaction of the elements of this system and its subsystem, it is important to take a systematic approach. The implementation of this complex multi-stage work on the optimization and functioning of all elements of logistics subsystems and the system as a whole.

Keywords:
Trump shipping, foreign trade relations, shipping business, marine logistics, formation of a logistics approach
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References

1. Informacionnye tehnologii v transportnoy logistike/ pod obschey redakciey A.K. Truhanova. -M.: KIA centr., 2000.

2. Eglit Ya.Ya. Ekspluataciya morskogo transporta. -SPb.: BTA, 1995.-236 s.

3. Eglit Ya.Ya. Vvedenie v special'nost' - Riga: LMA, 1992.-86 s.

4. Kondrat'ev S.I., Studenikin D.E., Dzhavuknyan M.L., Glimbockiy V.V. Sposob i sistema kontrolya mestopolozheniya su dna s pomosch'yu nechetkoy logiki: patent na izobretenie RU 2678762 S1, 31.01.2019. Zayavka №2018105412 ot 13.02.2018.

5. Epihin A.P., Kondrat'ev S.P., Hekert E.V. Prognozirovanie mnogomernyh nestacionarnyh vremennyh ryadov s ispol'zovaniem neyromodelirovaniya// Morskie intellektual'nye tehnologii,- 2020,-№ 4-4 (50).- S. 23-27.

6. Epihin A.I., Hekert E.V., Modina M.A. Principy neyroupravleniya i varianty arhitektury neyronnyh setey, primenitel'no k slozhnoy dinamicheskoy sisteme SEU-SUDEYu//Morskie intellektual'nye tehnologii,- 2020,- № 4-4 (50).- S. 18-22.

7. Scurtu I.C., Epikhin A.I., Khekert E.V. Development of neural networks forpredicting therisk of failure of components of ship machines and mechanisms of marine autonomous surface vessels //Ekspluataciya morskogo transporta- 2022.-№ 1 (102).-S. 103-107.

8. Epihin A.I., Ignatenko A.V., Studenikin D.E., Hekert E.V. Osnovnye trendy vnedreniya tehnologiy iskusstvennogo intellekta v upravlenii morskimi avtonomnymi nadvodnymi sudami//Ekspluataciya morskogo transporta,-2021,-№ 1 (98).-S. 88-96.

9. Epihin A.I., Hekert E.V., Karakaev A.B., Modina M.A. Osobennosti postroeniya prognosticheskoy neyrofazii seti //Morskie intellektual'nye tehnologii,- 2020,- № 4-4 (50).-S. 13-17.

10. Kondrat'ev S.I. Metody vychisleniya harakteristicheskih polinomov v zadachah upravleniya podvizhnyh ob'ektov: uchebnoe posobie / S.I. Kondrat'ev, E.A. Zelenkov,- Novorossiysk: Morskaya gos. akad. im. admirala F. F. Ushakova", 2007


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