An Energy-interference-free Hardware-Software Debugger for Intermittent Energy-harvesting Systems

[1]  Robert Szewczyk,et al.  System architecture directions for networked sensors , 2000, ASPLOS IX.

[2]  Narayanan Vijaykrishnan,et al.  Architecture exploration for ambient energy harvesting nonvolatile processors , 2015, 2015 IEEE 21st International Symposium on High Performance Computer Architecture (HPCA).

[3]  Farinaz Koushanfar,et al.  Idetic: A high-level synthesis approach for enabling long computations on transiently-powered ASICs , 2013, 2013 IEEE International Conference on Pervasive Computing and Communications (PerCom).

[4]  Joseph A. Paradiso,et al.  Energy scavenging for mobile and wireless electronics , 2005, IEEE Pervasive Computing.

[5]  Arnab Raha,et al.  QUICKRECALL: A Low Overhead HW/SW Approach for Enabling Computations across Power Cycles in Transiently Powered Computers , 2014, 2014 27th International Conference on VLSI Design and 2014 13th International Conference on Embedded Systems.

[6]  Kevin Fu,et al.  Mementos: system support for long-running computation on RFID-scale devices , 2011, ASPLOS XVI.

[7]  Brandon Lucia,et al.  Nonvolatile memory is a broken time machine , 2014, MSPC@PLDI.

[8]  Klaus Wehrle,et al.  KleeNet: discovering insidious interaction bugs in wireless sensor networks before deployment , 2010, IPSN '10.

[9]  Meng-Fan Chang,et al.  Ambient energy harvesting nonvolatile processors: From circuit to system , 2015, 2015 52nd ACM/EDAC/IEEE Design Automation Conference (DAC).

[10]  Luca Benini,et al.  Hibernus: Sustaining Computation During Intermittent Supply for Energy-Harvesting Systems , 2015, IEEE Embedded Systems Letters.

[11]  Kamin Whitehouse,et al.  Clairvoyant: a comprehensive source-level debugger for wireless sensor networks , 2007, SenSys '07.

[12]  John A. Stankovic,et al.  t-kernel: providing reliable OS support to wireless sensor networks , 2006, SenSys '06.

[13]  Timothy Scott,et al.  Ekho: realistic and repeatable experimentation for tiny energy-harvesting sensors , 2014, SenSys.

[14]  Mark D. Corner,et al.  Eon: a language and runtime system for perpetual systems , 2007, SenSys '07.

[15]  Patrick Th. Eugster,et al.  Diagnostic tracing for wireless sensor networks , 2013, TOSN.

[16]  Philip Levis,et al.  The nesC language: a holistic approach to networked embedded systems , 2003, SIGP.

[17]  Alanson P. Sample,et al.  Design of an RFID-Based Battery-Free Programmable Sensing Platform , 2008, IEEE Transactions on Instrumentation and Measurement.

[18]  David Wetherall,et al.  The Emergence of RF-Powered Computing , 2014, Computer.

[19]  Peng Li,et al.  T-check: bug finding for sensor networks , 2010, IPSN '10.

[20]  Brandon Lucia,et al.  A simpler, safer programming and execution model for intermittent systems , 2015, PLDI.

[21]  Kevin Fu,et al.  On the limits of effective hybrid micro-energy harvesting on mobile CRFID sensors , 2010, MobiSys '10.

[22]  David Wetherall,et al.  Ambient backscatter: wireless communication out of thin air , 2013, SIGCOMM.

[23]  David Wetherall,et al.  Dewdrop: An Energy-Aware Runtime for Computational RFID , 2011, NSDI.

[24]  David Blaauw,et al.  A modular 1mm3 die-stacked sensing platform with optical communication and multi-modal energy harvesting , 2012, 2012 IEEE International Solid-State Circuits Conference.

[25]  Deborah Estrin,et al.  Sympathy for the sensor network debugger , 2005, SenSys '05.

[26]  Randy H. Katz,et al.  Next century challenges: mobile networking for “Smart Dust” , 1999, MobiCom.