Enaleeva-Bandura I. M., Baranov A. N., Brovkin S. A., Grigoriev I. V., Kovalev R. N. Towards Assessing the Efficiency of Managing the Commercial Timber Supply System
1 Reshetnev Siberian State University of Science and Technology
Prospekt imeni gazety "Krasnoyarskiy Rabochiy", 31, Krasnoyarsk, 660037 Russian Federation
2 Arctic State Agrotechnological University
Sergelyakhskoe shosse, 3/3, Yakutsk, Republic of Sakha (Yakutia), 677007 Russian Federation
3 Ural State Forest Engineering University
Sibirskiy trakt, 37, Yekaterinburg, 620100 Russian Federation
4 Ural State Agrarian University
Karl Liebknecht Str., 42, Yekaterinburg, 620075 Russian Federation
Е-mail: melnikov1978@inbox.ru, aleksandr-baranov-55@mail.ru, worb1@mail.ru, silver73@inboxl.ru,
Abstract
UDC 630*3:630*785
How to cite: Enaleeva-Bandura I. M.1, Baranov A. N.1, Brovkin S. A.1, Grigoriev I. V.2, Kovalev R. N.3, 4 Towards assessing the efficiency of managing the commercial timber supply system // Sibirskij Lesnoj Zurnal (Sib. J. For. Sci.). 2024. N. 6. P. 101–112 (in Russian with English abstract and references).
DOI: 10.15372/SJFS20240612
EDN: …
© Enaleeva-Bandura I. M., Baranov A. N., Brovkin S. A., Grigoriev I. V., Kovalev R. N., 2024
The article analyzes and updates the features of the functioning of the transport and technological system for the supply of commercial wood and supply chain management, and identifies the main parameters for optimizing the supply chain management system for commercial wood to ensure the efficiency of the process. A multi-criteria approach to assessing the efficiency of the transport and technological process of supplying commercial timber is proposed due to the inconsistency of the main indicators that determine its effectiveness. A mathematical model has been developed for a complex multi-criteria assessment of the efficiency of the transport and technological process of supplying commercial wood, based on: methods of linear and dynamic programming, stochastic and economic-mathematical modeling, elements of statistical and economic analysis. The combination of the mentioned modeling methods allows the model to be quite simple and reliable in practical application, as well as adaptive to the changing external conditions of the production environment. The methodological development is presented with a detailed description of all the dependencies included in it, and the advantages of its application are noted.
Article
СПИСОК ЛИТЕРАТУРЫ (REFERENCES)
Аткинсон Э. А., Банкер Р. Д., Каплан Р. С., Янг М. С. Управленческий учёт. СПб.: Диалектика, 2019. С. 564–565 [Atkinson E. A., Banker R. D., Kaplan R. S., Yang M. S. Upravlencheskiy uchet (Management Accounting). St. Petersburg: Dialektika, 2019. P. 564–565 (in Russian)].
ГОСТ 31507-2012 Автотранспортные средства. Управляемость и устойчивость. Технические требования. Методы испытаний. М.: Стандартинформ, 2013. 51 с. [GOST 31507-2012 Avtotransportnye sredstva. Upravlyayemost’ i ustoychivost’. Tekhnicheskie trebovaniya. Metody ispytaniy (GOST 31507-2012 State standard 31507-2012. Motor vehicles. Controllability and stability. Technical requirements. Test Methods). Moscow: Standartinform, 2013 (in Russian)].
Григорян Е. С. Классификация видов устойчивости предприятия // Концепт. 2015. № 3. 6 c. [Grigoryan E. S. Klassifikatsiya vidov ustoychivosti predpriyatiya (Classification of types of enterprise sustainability) // Kontsept. 2015. N. 3. 6 p. (in Russian)].
Дороги лесные. Правила проектирования и строительства. Свод правил СП 288.1325800.2016. М.: Минстрой России, 2016. 111 c. [Dorogi lesnye. Pravila proektirovaniya i stroitel’stva. Svod pravil SP 288.1325800.2016 (Forest roads. Rules for design and construction. Set of rules SP 288.1325800.2016) Moscow: Minstroy Rossii (Ministry of Construction and Housing and Communal Services of the Russian Federation), 2016. 111 p. (in Russian)].
Дороги лесные. Правила эксплуатации. Свод правил СП 318.1325800.2017. М.: Минстрой России, 2017. 82 c. [Dorogi lesnye. Pravila ekspluatatsii. Svod pravil SP 318.1325800.2017 (Forest roads. Rules of operation. Set of rules SP 318.1325800.2017). Moscow: Minstroy Rossii (Ministry of Construction and Housing and Communal Services of the Russian Federation), 2017. 82 p. (in Russian)].
Коняшова А. В. Показатели оценки функциональных составляющих экономической устойчивости развития предприятия // Вестн. Челяб. гос. ун-та. 2013. № 8 (299). С. 123–128 [Konyashova A. V. Pokazateli otsenki funktsional’nykh sostavlyayushchikh ekonomicheskoy ustoychivosti razvitiya predpriyatiya (Indicators for assessing the functional components of the economic sustainability of enterprise development) // Vestn. Chelyab. gos. un-ta (Bull. Chelyabinsk St. Univ.). 2013. N. 8 (299). P. 123–128 (in Russian)].
Медведев С. О., Мохирев А. П., Мохирева И. Х., Гудень Т. С. Комплексный подход к оценке деятельности лесопромышленных предприятий // Фундамент. иссл. 2019. № 12. С. 104–108 [Medvedev S. O., Mokhirev A. P., Mokhireva I. Kh., Guden’ T. S. Kompleksny podkhod k otsenke deyatel’nosti lesopromyshlennykh predpriyatiy (An integrated approach to assessing the activities of forestry enterprises) // Fundament. issl. (Fundament. Res.). 2019. N. 12. P. 104–108 (in Russian with English abstract)].
Мезенина О. Б., Камалова О. Ф., Сахончик О. А. Формирование системы показателей оценки эффективности использования земель лесного комплекса // Леса России и хоз-во в них. 2014. № 4 (51). С. 60–67 [Mezenina O. B., Kamalova O. F., Sakhonchik O. A. Formirovanie sistemy pokazateley otsenki effektivnosti ispol’zovaniya zemel’ lesnogo kompleksa (Formation of a system of indicators for assessing the efficiency of use of lands of the forestry complex) // Leasa Rossii i khoz-vo v nikh (Forests of Russia and Management in Them). 2014. N. 4 (51). P. 60–67 (in Russian with English abstract)].
Мохирев А. П., Герасимова М. М., Позднякова М. О. Анализ структуры затрат на транспортировку древесины и их сезонной динамики // Лесотех. журн. 2020. № 2. С. 123–133 [Mokhirev A. P., Gerasimova M. M., Pozdnyakova M. O. Analiz struktury zatrat na transportirovku drevesiny i ikh sezonnoy dinamiki (Analysis of the cost structure for wood transportation and their seasonal dynamics) // Lesotekh. zhurn. (For. Engineer. J.). 2020. N. 2. P. 123–133 (in Russian with English abstract)].
Папонов Н. Н. Стадийное повышение эксплуатационно-экологического уровня лесовозных автомобильных дорог: Автореф. дис. … канд. техн. наук: 05.21.01. Воронеж: Воронеж. гос. лесотех. акад., 1997. 15 с. [Paponov N. N. Stadiynoe povyshenie ekspluatatsionno-ekologicheskogo urovnya lesovoznykh avtomobil’nykh dorog: Avtoref. dis. … kand. tekhn. nauk: 05.21.01 (Staged increase in the operational and environmental level of logging roads: Dis. Cand. Tech. Sci. (PhD): Technol. & Machinery for Logging & For.). Voronezh: Voronezh. gos. lesotekh. akad. (Voronezh St. For. Engineer. Acad.). 1997. 15 p. (in Russian)].
Чижов Г. Командообразование. Результативность и эффективность работы менеджеров. 2017 [Chizhov G. Komandoobrazovanie. Rezul’tativnost’ i effektivnost’ raboty menedzherov (Team building. The effectiveness and efficiency of managers). 2017 (in Russian)]. https://ppt-online.org/689651
Шаин В. А. Повышение эффективности международных перевозок древесины: Дис. … канд. техн. наук: 05.21.01. Петрозаводск: Петрозаводск. гос. ун-т, 2017. 158 с. [Shain V. A. Povyshenie effektivnosti mezhdunarodnykh perevozok drevesiny: Dis. … kand. tekhn. nauk: 05.21.01 (Increasing the efficiency of international wood transportation: Dis. Cand. Tech. Sci. (PhD): Technol. & Machinery for Logging & For.). Petrozavodsk: Petrozavodsk. Gos. un-t (Petrozavodsk St. Univ.), 2017. 158 p. (in Russian)].
Шурыгинa О. В. Экологические затраты как экономическая и учетная категории // Вестн. СибГАДА. 2013. Вып. 4 (32). С. 171–178 [Shurygina O. V. Ekologicheskie zatraty kak ekonomicheskaya i uchetnaya kategorii (Environmental costs as economic and accounting categories) // Vestn. SibADI (Bull. Sib. St. Auto-Road Acad.). 2013. Iss. 4 (32). P. 171–178 (in Russian with English abstract and references)].
Cardona-Valdés Y., Álvarez A., Ozdemir D. A bi-objective supply chain design problem with uncertainty // Transport. Res. Part C: Emerg. Technol. 2011. V. 19. Iss. 5. P. 821–832.
El-Sayed M., Afia N., El-Kharbotly A. A stochastic model for forward-reverse logistics network design under risk // Comput. Industr. Engineer. 2010. V. 58. Iss. 3. P. 423–431.
Fahimnia B., Sarkis J., Davarzani H. Green supply chain management: A review and bibliometric analysis // Int. J. Product. Econ. 2015. V. 162. P. 101–114.
Movahedipour M., Yang M., Zeng J., Wu X., Salam S. Optimization in supply chain management, the current state and future directions: A systematic review and bibliometric analysis // J. Industr. Engineer. Manag. 2016. V. 9. N. 4. P. 933–963.
Nooraie S. V., Parast M. M. Mitigating supply chain disruptions through the assessment of trade-offs among risks, costs and investments in capabilities // Int. J. Product. Econ. 2016. V. 171. Part 1. P. 8–21.