Arama Sonuçları - "duel"

Deep Learning with TensorFlow and Keras - 3rd Edition : Build and Deploy Supervised, Unsupervised, Deep, and Reinforcement Learning Models. Yazar: Kapoor, Amita

İçindekiler: “…-- How to deal with the highly correlated input state space -- How to deal with the problem of moving targets -- Reinforcement success in recent years -- Simulation environments for RL -- An introduction to OpenAI Gym -- Random agent playing Breakout -- Wrappers in Gym -- Deep Q-networks -- DQN for CartPole -- DQN to play a game of Atari -- DQN variants -- Double DQN -- Dueling DQN -- Rainbow -- Deep deterministic policy gradient -- Summary -- References -- Chapter 12: Probabilistic TensorFlow -- TensorFlow Probability -- TensorFlow Probability distributions -- Using TFP distributions -- Coin Flip Example -- Normal distribution -- Bayesian networks -- Handling uncertainty in predictions using TensorFlow Probability -- Aleatory uncertainty -- Epistemic uncertainty -- Creating a synthetic dataset -- Building a regression model using TensorFlow -- Probabilistic neural networks for aleatory uncertainty -- Accounting for the epistemic uncertainty -- Summary -- References.…”
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Introduction to Refractories for Iron- and Steelmaking. Yazar: Biswas, Subir

İçindekiler: “…3.4.1.5 Thermal Expansion of the Lining and Shell -- 3.4.2 Quality Upgradation -- 3.4.2.1 Upgradation of Carbon Refractory in Hearth Lining -- 3.4.2.2 Micropore and Super Micropore Carbon -- 3.4.3 Monitoring of Refractory Condition -- 3.4.3.1 Use of Duel Thermocouple -- 3.4.3.2 Acoustoultrasonicecho Technique -- 3.4.3.3 Anomalies in Defining Refractory Lining Thickness -- 3.4.3.4 Design of Ceramic cup -- 3.4.3.5 Advantages of Using Ceramic Cup -- Cracking Mechanism -- 3.4.4 Thermal Solution -- 3.4.4.1 Formation of ``Freezing Layer -- 3.4.5 Bottom Pad Cooling Layer -- 3.4.6 Blast Furnace Repair Processes -- 3.4.6.1 Relining Process -- 3.4.6.2 Expansion of Blast Furnace Inner Volume -- 3.4.6.3 Relining Activity -- 3.4.6.4 Dismantling of Old Refractory -- 3.4.6.5 Lining of New Refractory -- 3.4.6.6 Brick Lining in Stack -- 3.4.7 Change of Stack Refractory -- 3.4.7.1 Gas-Free Atmosphere -- 3.4.7.2 Refractory Concrete for Capping -- 3.5 Cast House Refractory -- 3.5.1 Tap Hole Design -- 3.5.2 Tap Hole Clay and its Performances -- 3.5.2.1 Wear Mechanism of Tap Hole Clay -- 3.5.2.2 Moisture and Volatile Matter -- 3.5.2.3 Checking the Properties of Tap Hole Clay to Ensure Performance -- 3.5.3 Hot Metal Trough and its Design -- 3.5.3.1 Pooling Trough -- 3.5.3.2 Semi-Pooling Trough -- 3.5.3.3 Non-pooling Trough -- 3.5.4 Refractory for Hot Metal Trough and Iron Runners -- 3.5.5 Wear Mechanism -- 3.5.6 Modern Refractory Practices -- 3.5.6.1 Use of Antioxidants -- 3.5.6.2 Effect of Spinel Content on Refractory Castables -- 3.5.6.3 Effect of Silicon Carbide -- 3.5.6.4 Use of SiO2-Sol as a Binder -- 3.5.6.5 High Performance Backup Lining -- References -- Chapter 4: Hot Stove and Hot Air Carrying System -- 4.1 Introduction -- 4.2 Design of Hot Blast Stove -- 4.3 Refractory Lining Design -- 4.3.1 High Alumina Refractory in Hot Blast Stove.…”
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