李念语  等:一种基于分层适应逻辑的自适应系统实现框架                                                     1975


                 [7]    Li N, Bai D, Peng Y, Yang Z, Jiao W. Verifying stochastic behaviors of decentralized self-adaptive systems: A formal modeling
                     and simulation based approach. In: Proc. of the 2018 IEEE Int’l Conf. on Software Quality, Reliability and Security (QRS). Lisbon:
                     IEEE, 2018. 67–74.
                 [8]    Aldrich J, Garlan D, Kästner C, Goues CL, Mohseni-Kabir A, Ruchkin I, Samuel S, Schmerl BR, Timperley CS, Veloso M, Voysey
                     I, Biswas J, Guha A, Holtz J, Cámara J, Jamshidi P. Model-based adaptation for robotics software. IEEE Software, 2019,36(2):
                     83–90.
                 [9]    Dijkstra EW. On the Role of Scientific Thought. Selected Writings on Computing: A Personal Perspective. Springer-Verlag, 1982.
                     60–66.
                [10]    Keeney J,  Cahill  V.  Chisel:  A policy-driven,  context-aware, dynamic  adaptation framework. In: Proc. of  the 4th IEEE Int’l
                     Workshop on Policies for Distributed Systems and Networks (POLICY 2003). Lake Como, 2003. 3–14.
                [11]    Ramirez AJ, Cheng BHC. Design patterns for developing dynamically adaptive systems. In: Proc. of the 2010 ICSE Workshop on
                     Software Engineering for Adaptive and Self-managing Systems, SEAMS 2010. Cape Town, 2010. 49–58.
                [12]    Bozhinoski D, Garlan D, Malavolta I, Pelliccione P. Managing safety and mission completion via collective run-time adaptation.
                     Journal of Systems Architecture—Embedded Systems Design, 2019,95:19–35.
                [13]    Colson K, Dupuis R, Montrieux L, Hu Z, Uchitel S, Schobbens P-Y. Reusable self-adaptation through bidirectional programming.
                     In: Proc. of the 11th Int’l Workshop on Software Engineering for Adaptive and Self-Managing Systems—SEAMS 2016. Texas:
                     ACM Press, 2016. 4–15.
                [14]    Yang QL, Ma XX, Xing JC, Hu H, Wang P, Han DS. Software self-adaptation: Control theory based approach. Chinese Journal of
                     Computers, 2016,39(11):2189–2215 (in Chinese with English abstract).
                [15]    Kephart JO, Chess DM. The vision of autonomic computing. IEEE Computer, 2003,36(1):41–50.
                [16]    Heider F. The Psychology of Interpersonal Relations. New York: Wiley, 1958.
                [17]    Kelley HH.  Attribution theory in social psychology. In: Proc. of the  Nebraska Symp. on Motivation.  Lincoln:  University of
                     Nebraska Press, 1967,15:192–238.
                [18]    Krupitzer  C,  Roth FM,  VanSyckel  S, Schiele  G,  Becker C. A survey  on engineering  approaches for self-adaptive systems.
                     Pervasive and Mobile Computing, 2015,17:184–206.
                [19]    Jiao  W, Sun  Y. Self-adaptation of  multi-agent systems in dynamic  environments based  on  experience  exchanges. Journal of
                     Systems and Software, 2016,122:165–179.
                [20]    Chen Y, Iyer S, Liu X, Milojicic DS, Sahai A. SLA decomposition: translating service level objectives to system level thresholds.
                     In: Proc. of the 4th Int’l Conf. on Autonomic Computing (ICAC 2007). Jacksonville, 2007. 3.
                [21]    Longueville B, Gardoni M, Others. A survey of context modeling: Approaches, theories and use for engineering design researches.
                     In: Proc. of the ICED 2003, the 14th Int’l Conf. on Engineering Design. Stockholm, 2003. 437–438.
                [22]    Filieri  A,  Maggio M,  Angelopoulos K,  Etc ND.  Control strategies for self-adaptive  software systems.  TAAS, 2017,11(4):
                     24:1–24:31.
                [23]    Shen Z, Subbiah S, Gu X, Wilkes J. CloudScale: Elastic resource scaling for multi-tenant cloud systems. In: Proc. of the ACM
                     Symp. on Cloud Computing in Conjunction with SOSP 2011, SOCC ’11. Cascais, 2011. 5.
                [24]    Zhao T, Zhang W, Zhao H, Jin Z. A reinforcement learning-based framework for the generation and evolution of adaptation rules.
                     In: Proc. of the 2017 IEEE Int’l Conf. on Autonomic Computing, ICAC 2017. Columbus, 2017. 103–112.
                [25]    Amza C, Chanda A, Cox AL, Elnikety  S, Gil R, Rajamani K, Zwaenepoel W, Cecchet E.  Specification and  implementation  of
                     dynamic Web site benchmarks. In: Proc. of the IEEE Int’l Workshop on Workload Characterization, WWC-5. 2002.
                [26]    Klein C, Maggio M, Karl-Erik A, Hernández-Rodriguez F. Brownout: Building more robust cloud applications. In: Proc. of the
                     36th Int’l Conf. on Software Engineering, ICSE 2014. Hyderabad, 2014. 700–711.
                [27]    Almasri MM, Alajlan AM, Elleithy KM. Trajectory planning and collision avoidance algorithm for mobile robotics system. IEEE
                     Sensors Journal, 2016,16(12):5021–5028.