dynamic cycle
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2021 ◽  
Vol 23 (2) ◽  
pp. 132-145
Author(s):  
Muhammad Ridwan ◽  
Rianita Puspa Sari ◽  
Agustian Suseno

The Markov chain hypothesis is the hypothesis discussed in stochastic interactions, and has several applications. This strategy is always coordinated with future situations whose whereabouts cannot be known with certainty, so the community tries to carry out exercises with future directions full of vulnerabilities. Hypotheses are numerical ways of dealing with competitive planning situations and the struggles between different interests. This hypothesis is designed to examine the dynamic cycle of various serious states and includes at least two interests. In this situation, the information obtained from the voting results is then assessed for its legitimacy and quality by using the SPSS program. The consequence of counting with Markov chain's S Noodle items reduces the share of the entire industry by 5.8%, while the fun noodle items expands a portion of the entire industry by 41%, the side effect of the game hypothesis being specific. namely X1 with probability 0.5, X2 with probability 0.5 and X3 with probability 3.16. Meanwhile, to limit misfortune, Indomie consolidates three systems, namely Y1 with likelihood - 0.1, Y2 with likelihood 0.5 and Y3 with likelihood 1.


2021 ◽  
Vol 11 (2) ◽  
pp. 429-442
Author(s):  
T. Prakash ◽  
T. Thaha Tasliem ◽  
R. Vishnu Devi ◽  
Dr.A. Rajivkannan ◽  
Dr.N. Saravanan

Farming remaining parts the area which contributes the most noteworthy to country. However, while considering innovation that is conveyed in this field, we locate that the improvement isn't gigantic. Presently a day's there is immense upgrade in advances which essentially affect different fields like horticulture, medical services and so forth Farming is the essential occupation in our country. The progression of water is overseen by solenoid valve. The opening and shutting of valve is done when a sign is send through microcontroller. The water to the base of plant is done drop by drop utilizing precipitation firearm and when the dampness level again become ordinary then sensor detects it and impart a sign to microcontroller and the worth is then shut. The IOT and microcontroller are associated and when dampness of the dirt become low dampness sensor sense it and impart sign to microcontroller. IOT assists with getting to data and settle on significant dynamic cycle by getting various qualities from sensors like soil dampness, sensors, water quality and so on.


2021 ◽  
Author(s):  
Atsuko Uchida ◽  
Anthony Brown

ABSTRACTWe used long-term multi-field time-lapse imaging to analyze the movement, severing and annealing of single neurofilaments along axons of cultured neurons. All filaments were capable of rapid movement. However, long filaments paused and reversed more often, resulting in little net movement, whereas short filaments moved persistently for long distances, pausing and reversing less often. Long filaments severed more frequently, generating shorter filaments, and short filaments annealed more frequently, generating longer filaments. Site-directed mutagenesis to mimic phosphorylation at known phosphorylation sites in the neurofilament protein L head domain increased the severing rate, generating shorter neurofilaments that moved more frequently. A dephospho-mimic mutant had the opposite effect. Treatment with activators of protein kinase A increased filament severing, and this effect was blocked by the dephosphomimic. Thus, neurofilament length and transport are regulated by a dynamic cycle of severing and annealing. We propose that focal destabilization of intermediate filaments by N-terminal phosphorylation may be a general enzymatic mechanism for severing these cytoskeletal polymers.SUMMARYUchida & Brown demonstrate that neurofilament length and transport are regulated by a dynamic cycle of neurofilament polymer severing and end-to-end annealing and propose an enzymatic severing mechanism for neurofilaments involving N-terminal phosphorylation of their constituent polypeptides.


Energy ◽  
2020 ◽  
Vol 206 ◽  
pp. 118155
Author(s):  
Yue Yang ◽  
Lei Chen ◽  
Lijun Yang ◽  
Xiaoze Du ◽  
Yongping Yang

2020 ◽  
Vol 12 (17) ◽  
pp. 6794
Author(s):  
Hui Liu ◽  
Xiaoyu Song ◽  
Lin Qin ◽  
Wang Wen ◽  
Xiaodi Liu ◽  
...  

The calculation of theoretical carrying capacity (TCC) is one of the most fundamental tasks for the evaluation of the forage–livestock balance on grassland pastures. At present, the main methods for calculating TCC are the traditional theory (TT) and key pasture theory (KPT), but they both have obvious limitations in practical applications for the seasonal grazing regions in the alpine desert grasslands of China. In this study, the pastures in Wulan County (PWC) were selected as the research area. The unique features of the research area as well as the faulty applications of TT and KPT were fully analyzed, and then a new method named dynamic key pasture theory (DKPT) was established for calculating TCC by improving KPT with the introduction of the two dynamic factors of the livestock slaughter rate (α) and coefficient of grassland productivity (β). TT, KPT and DKPT were respectively used to calculate the TCC of the PWC under different precipitation scenarios. The forage–livestock balance in the PWC determined using DKPT was assessed by the forage–livestock balance index (FLBI). The results showed that the natural processes of grassland supply and livestock demand were significantly imbalanced in time and space and formed a dynamic cycle with four subprocesses, which was the supporting basis of DKPT; DKPT effectively improved the rationality of TCC and offered greater guidance for the evaluation of the forage–livestock balance in the seasonal grazing regions of China’s alpine desert grasslands. In the PWC, the TCCs of different pastures calculated by DKPT were clearly different from those calculated by TT and KPT; the areas of the pastures divided were extremely imbalanced, with a huge surplus of more than 50% in cool-season pastures; in the representative year of 2016, the pastures in the Xisai Basin were underloaded (FLBI = −35.19%) on the whole, while the pastures in the Chaka Basin were overloaded (FLBI = 24.34%).


2019 ◽  
Author(s):  
ANNISA

Considering that the Government of the Republic of Indonesia consists of the central government and regional governments, the administrative system also "adjusts so that a centralized system and a decentralized system are subjected. The system of centralized centralization is a system that refers to the administrative authority that is in the central government. Whereas the decentralized system is a system referring to the administrative authority that is in the regional government The implementation of the two administrative systems is a dynamic cycle and administrative mechanism, one related to each other and supporting each other In relation to the administration of educational programs (administration of curriculum), in Indonesia both systems have been applied The application is intended to support the integration and harmony in the implementation of education or curriculum that is realized through the quality requirements and management authority.


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