Erica Li* and Li Yinghua
DOI: 10.37421/2168-9695.2023.12.259
Mobile robot business grows fast at a high CAGR with the emergence of e-commerce and winning Covid 19 struggle, while there are apparent needs for technology advance in hardware drive performance. Besides high positioning accuracy upon carrying heavy loads, mobile robot will need all-directional free movement at good compactness, high efficiency, long stable service life, easy manufacturing with good price, more environmental friendly experience, these put forward challenges to current mobile wheel drive, esp. Precision Wheel hub gearbox, which largely, and directly influence mobile robot’s motion performance. Based upon customer’s experience, we will suggest adopting zero backlash precision Cycloidal replace planetary reducer, to build into wheel, thus bestow excellent performance from all aspects at unmatched cost benefit, carrying robot evolution to next level advanced stage.
DOI: 10.37421/2168-9695.2024.13.283
DOI: 10.37421/2168-9695.2024.13.282
DOI: 10.37421/2168-9695.2024.13.281
DOI: 10.37421/2168-9695.2024.13.280
Probabilistic reasoning serves as a potent tool in decision-making processes across various domains. Its application allows individuals to navigate uncertainty and make informed choices based on the likelihood of different outcomes. This paper delves into the significance of probabilistic reasoning in fostering sound judgments, exploring its theoretical underpinnings, practical applications and implications for decision-making. Through examining real-world examples and discussing relevant research, it elucidates how probabilistic reasoning enhances the quality of judgments and aids in mitigating cognitive biases. Furthermore, it discusses challenges associated with probabilistic reasoning and proposes strategies to overcome them. By elucidating the role of probabilistic reasoning in sound judgments, this paper aims to highlight its importance in fostering rational decision-making in complex environments.
DOI: 10.37421/2168-9695.2024.13.279
DOI: 10.37421/2168-9695.2024.13.278
Risk management is a critical aspect of decision-making in various domains, from finance to engineering to healthcare. Employing probabilistic reasoning in risk assessment and mitigation strategies enhances the effectiveness of risk management processes. This paper explores the integration of probabilistic reasoning into risk management frameworks, highlighting its significance in identifying, evaluating and addressing uncertainties. By employing probabilistic models, organizations can make informed decisions, optimize resource allocation and anticipate potential outcomes with greater accuracy. Strategies for successful implementation of probabilistic reasoning in risk management are discussed, emphasizing the importance of data quality, expert judgment and continuous improvement. Case studies from different industries illustrate the practical application and benefits of probabilistic risk management. Overall, this paper underscores the pivotal role of probabilistic reasoning in enhancing risk management practices and fostering resilience in the face of uncertainties.
DOI: 10.37421/2168-9695.2024.13.277
User data mining has become an integral part of modern business strategies, enabling companies to gain insights into consumer behavior, preferences and trends. However, the widespread collection and analysis of user data raise significant ethical concerns regarding privacy invasion, data security and the potential misuse of personal information. This paper examines the ethical considerations involved in user data mining, focusing on the delicate balance between the benefits of data analysis and the protection of individual privacy rights. It explores various ethical frameworks, regulations and guidelines aimed at mitigating the risks associated with data mining practices. Additionally, the paper discusses the role of transparency, consent, anonymization techniques and data protection measures in fostering ethical data mining practices. Ultimately, it emphasizes the importance of adopting responsible and transparent approaches to user data mining to uphold ethical standards and safeguard user privacy in the digital age.
DOI: 10.37421/2168-9695.2024.13.276
DOI: 10.37421/2168-9695.2024.13.275
Logic Programming (LP) stands as a cornerstone in the realm of Artificial Intelligence (AI), offering powerful tools for knowledge representation, reasoning and problem-solving. This paper delves into the intricate landscape of LP within AI, elucidating its foundational principles, essential algorithms and diverse applications. Beginning with a primer on LP, we traverse through its historical evolution, highlighting key milestones and pivotal developments. Subsequently, we dissect fundamental LP paradigms, such as Prolog, Constraint Logic Programming (CLP) and Answer Set Programming (ASP), elucidating their unique features and operational mechanisms. The discourse then shifts towards exploring LP algorithms, including resolution, unification and constraint propagation, unraveling their roles in facilitating logical inference and deduction. Through a comprehensive survey of LP applications, ranging from expert systems and natural language processing to robotics and bioinformatics, we underscore the versatility and efficacy of LP in addressing real-world challenges. Moreover, we analyze contemporary trends and emerging research directions, charting the trajectory of LP's evolution amidst the ever-expanding landscape of AI. By shedding light on LP's theoretical underpinnings, algorithmic intricacies and practical implications, this paper aims to provide a holistic understanding of its significance in shaping the future of AI.
Advances in Robotics & Automation received 1275 citations as per Google Scholar report