Нұрғалиев М. К. Enhanced Reinforcement Learning Algorithm Based-Transmission Parameter Selection for Optimization of Energy Consumption and Packet Delivery Ratio in LoRa Wireless Networks
MDPI
0 - г.
0 - стр.
1562
Досымбетова Г. Б. Enhanced Reinforcement Learning Algorithm Based-Transmission Parameter Selection for Optimization of Energy Consumption and Packet Delivery Ratio in LoRa Wireless Networks
MDPI
0 - г.
0 - стр.
1563
Қошқарбай Н. Ж. Enhanced Reinforcement Learning Algorithm Based-Transmission Parameter Selection for Optimization of Energy Consumption and Packet Delivery Ratio in LoRa Wireless Networks
MDPI
0 - г.
0 - стр.
1564
Болатбек А. Б. Enhanced Reinforcement Learning Algorithm Based-Transmission Parameter Selection for Optimization of Energy Consumption and Packet Delivery Ratio in LoRa Wireless Networks
MDPI
0 - г.
0 - стр.
1565
Саймбетов А. К. Enhanced Reinforcement Learning Algorithm Based-Transmission Parameter Selection for Optimization of Energy Consumption and Packet Delivery Ratio in LoRa Wireless Networks
MDPI
0 - г.
0 - стр.
1566
Құттыбай Н. Б. Enhanced Reinforcement Learning Algorithm Based-Transmission Parameter Selection for Optimization of Energy Consumption and Packet Delivery Ratio in LoRa Wireless Networks
MDPI
0 - г.
0 - стр.
1567
Нұрғалиев М. К. Machine Learning Based Localization of LoRa Mobile Wireless Nodes Using a Novel Sectorization Method
MDPI
0 - г.
0 - стр.
1568
Саймбетов А. К. Machine Learning Based Localization of LoRa Mobile Wireless Nodes Using a Novel Sectorization Method
MDPI
0 - г.
0 - стр.
1569
Болатбек А. Б. Machine Learning Based Localization of LoRa Mobile Wireless Nodes Using a Novel Sectorization Method
MDPI
0 - г.
0 - стр.
1570
Қошқарбай Н. Ж. Machine Learning Based Localization of LoRa Mobile Wireless Nodes Using a Novel Sectorization Method
MDPI
0 - г.
0 - стр.
1571
Досымбетова Г. Б. Machine Learning Based Localization of LoRa Mobile Wireless Nodes Using a Novel Sectorization Method
MDPI
0 - г.
0 - стр.
1572
Құттыбай Н. Б. Machine Learning Based Localization of LoRa Mobile Wireless Nodes Using a Novel Sectorization Method
MDPI
0 - г.
0 - стр.
1573
Каппарова А. А. Machine Learning Based Localization of LoRa Mobile Wireless Nodes Using a Novel Sectorization Method
MDPI
0 - г.
0 - стр.
1574
Орынбасар С. О. Machine Learning Based Localization of LoRa Mobile Wireless Nodes Using a Novel Sectorization Method
MDPI
0 - г.
0 - стр.
1575
Жоламанов Б. Н. Machine Learning Based Localization of LoRa Mobile Wireless Nodes Using a Novel Sectorization Method
MDPI
0 - г.
0 - стр.
1576
Саймбетов А. К. Novel filtering and regeneration technique with statistical feature extraction and machine learning for automatic modulation classification
ElSEVIER Science Direct
0 - г.
0 - стр.
1577
Құттыбай Н. Б. Novel filtering and regeneration technique with statistical feature extraction and machine learning for automatic modulation classification
ElSEVIER Science Direct
0 - г.
0 - стр.
1578
Нұрғалиев М. К. Novel filtering and regeneration technique with statistical feature extraction and machine learning for automatic modulation classification
ElSEVIER Science Direct
0 - г.
0 - стр.
1579
Жоламанов Б. Н. Novel filtering and regeneration technique with statistical feature extraction and machine learning for automatic modulation classification
ElSEVIER Science Direct
0 - г.
0 - стр.
1580
Болатбек А. Б. Novel filtering and regeneration technique with statistical feature extraction and machine learning for automatic modulation classification
ElSEVIER Science Direct
0 - г.
0 - стр.
1581
Орынбасар С. О. Novel filtering and regeneration technique with statistical feature extraction and machine learning for automatic modulation classification
ElSEVIER Science Direct
0 - г.
0 - стр.
1582
Мамурова А. Т.
Unlocking the biological potential of methyl antcinate A: a new frontier in cancer and inflammation application.
Springer Nture Switzerland
0 - г.
0 - стр.
1583
Құттыбай Н. Б.
Minimum solar tracking system for a Fresnel lens-based LCPV
Renewable Energy
0 - г.
0 - стр.
1584
Нұрғалиев М. К.
Minimum solar tracking system for a Fresnel lens-based LCPV
Renewable Energy
0 - г.
0 - стр.
1585
Орынбасар С. О.
Minimum solar tracking system for a Fresnel lens-based LCPV
Renewable Energy
0 - г.
0 - стр.
1586
Досымбетова Г. Б.
Minimum solar tracking system for a Fresnel lens-based LCPV
Renewable Energy
0 - г.
0 - стр.
1587
Әлмен Д. Б.
Minimum solar tracking system for a Fresnel lens-based LCPV
Renewable Energy
0 - г.
0 - стр.
1588
Жоламанов Б. Н.
Minimum solar tracking system for a Fresnel lens-based LCPV
Renewable Energy
0 - г.
0 - стр.
1589
Қошқарбай Н. Ж.
Minimum solar tracking system for a Fresnel lens-based LCPV
Renewable Energy
0 - г.
0 - стр.
1590
Болатбек А. Б.
Minimum solar tracking system for a Fresnel lens-based LCPV
Renewable Energy
0 - г.
0 - стр.
1591
Каппарова А. А.
Minimum solar tracking system for a Fresnel lens-based LCPV
Renewable Energy
0 - г.
0 - стр.
1592
Саймбетов А. К.
Minimum solar tracking system for a Fresnel lens-based LCPV
Renewable Energy
0 - г.
0 - стр.
1593
Хохлов С. А.
Допплеровская томография околозвездного диска Ве-звезды каппа Дракона
Galaxies
0 - г.
0 - стр.
1594
Камхен В. Б.
Сравнительный анализ кажущегося коэффициента диффузии и визуализации тензора диффузии в диагностике рака предстательной железы
Asian Pacific Journal of Cancer Prevention
0 - г.
0 - стр.
1595
Камхен В. Б.
Предикторы, связанные с нарушением ночного сна у кормящих грудью женщин
Preventive Medicine
0 - г.
0 - стр.
1596
Камхен В. Б.
Динамика показателей, характеризующих здоровье молодежи Казахстана
Universal Journal of Public Health
0 - г.
0 - стр.
1597
Жеңіс Ж. Chemistry and toxicity of 7-hydroxymitragynine (7-OHMG): an updated review on the oxidized derivative of mitragynine
Phytochemistry Reviews
0 - г.
0 - стр.
1598
Рысқали Т. Б.
Фитохимическое исследование расторопши пятнистой, Silybum marianum (L.) Gaertn.
Caspian Journal of Environmental Sciences
0 - г.
0 - стр.
1599
Жеңіс Ж. Isolation, biological activity, and synthesis of isoquinoline alkaloids
Nat. Prod. Rep
0 - г.
0 - стр.
1600
Жеңіс Ж. Effects of different pretreatment on the drying characteristics and pectin properties of jujube by microwave coupled with pulsed vacuum drying
Food Processing Engeneering
0 - г.
0 - стр.