Introduces the topic of cloud computing with an emphasis on the trustworthiness of cloud computing systems and services
This book describes the scientific basis of cloud computing, explaining the ideas, principles, and architectures of cloud computing as well the different types of clouds and the services they provide. The text reviews several cloud computing platforms, including Microsoft Azure, Amazon, Oracle, Google, HP, IBM, Salesforce, and Kaavo. The author addresses the problem of trustworthiness in cloud computing and provides methods to improve the security and privacy of cloud applications. The end-of-chapter exercises and supplementary material on the book's companion website will allow readers to grasp the introductory and advanced level concepts of cloud computing.
- Examines cloud computing platforms such as Microsoft Azure, Amazon, Oracle, Google, HP, IBM, Salesforce, and Kaavo
- Analyzes the use of aspect-oriented programming (AOP) for refactoring cloud services and improving the security and privacy of cloud applications
- Contains practical examples of cloud computing, test questions, and end-of-chapter exercises
- Includes presentations, examples of cloud projects and other teaching resources at the author’s website (http://www.vladimirsafonov.org/cloud)
Trustworthy Cloud Computing is written for advanced undergraduate and graduate students in computer science, data science, and computer engineering as well as software engineers, system architects, system managers, and software developers new to cloud computing.
Avainsanat: Cloud computing; Trustworthy Computing ; Intercloud; Software architecture; middleware; service-oriented architecture; thin client; rich client; server; layer; abstraction layer; tier; multi-tiered architecture; Amazon AWS Cloud; IBM Bluemix Cloud; HP Helion Cloud; Google Cloud Platform; Salesforce Cloud; Oracle Cloud; Kaavo Cloud; Cloud portal; session riding; virtual machine escape; hypervisor; availability of service; CSR lock-in; distributed denial of service (DDoS); Man-in-the-Middle (MITM) attack; data loss; account/service hijacking; Microsoft Azure cloud platform; Content Delivery Network (CDN), Grid & Cloud Computing, Software Engineering, Grid & Cloud Computing, Software Engineering