| The LEP control system (p. 3) |
| by Innocenti, Pier Giorgio |
| SSC control system (p. 8) |
| by Hartill, D L |
| The status and prospects of the TRISTAN controls system (p. 15) |
| by Kurokawa, S |
| The GSI control system (p. 21) |
| by Steiner, R |
| Accelerator control systems at the INP : status and prospects(p. 25) |
| by Aleshaev, A N |
| Overview for accelerator control at IHEP (p. 31) |
| by Liu, S |
| The UA1 control and monitoring system based on MacUA1 (p. 38) |
| by Cittolin, Sergio |
| Proposed diagnostic data acquisition, monitor and control system for CIT (p. 53) |
| by Rauch, W |
| Present-day technology for distributed control system design (p. 56) |
| by Aghion, F |
| The SIN accelerator control system (p. 60) |
| by Blumer, T |
| The control system of the AGOR cyclotron (p. 65) |
| by Kroon, P A |
| Control of the TCV Tokamak (p. 68) |
| by Lister, J B |
| Updated overview of the TEVATRON control system (p. 71) |
| by Lucas, P |
| Control system of the RIKEN ring cyclotron (p. 76) |
| by Wada, T |
| Control and protection system for the Varennes Tokamak (p. 80) |
| by Iliev, Bozhidar Z |
| The Dzero downloading and control system (p. 84) |
| by Shea, M F |
| The UNK control system : basic principles(p. 90) |
| by Alferov, V N |
| Present status and recent improvements of the GANIL control system (p. 91) |
| by Luong, T T |
| Upgrading the control system of the Saclay Linac (p. 95) |
| by Gournay, J F |
| VME-computer based control system for the KEK proton synchrotron (p. 99) |
| by Katoh, T |
| Aladdin light source control system improvements (p. 103) |
| by Scott, J P |
| The status of the LAMPF control system upgrade (p. 107) |
| by Carr, G P |
| The computer-controlled beam diagnostics system for the CERN ISOLDE 3 project (p. 113) |
| by Benincasa, G P |
| Low cost CAMAC control systems used for auxiliary controls in the CERN PS complex (p. 117) |
| by Di Maio, F |
| Forum : an industrial process control package for the use in experimental physics(p. 121) |
| by Blönnigen, F B |
| Control of the undulator beamline on Aladdin (p. 123) |
| by Eisert, D E |
| The bake-out control system for the CELSIUS project (p. 127) |
| by Gajewski, K |
| Distributed data processing in the microcomputers based control system (p. 131) |
| by Gajewski, K |
| FIRUS : completion of the FNAL site-wide fire and utility monitoring system(p. 133) |
| by Briegel, C |
| Process controls for the HERA cryogenic system (p. 137) |
| by Clausen, M |
| Design study for the TRIUMF kaon factory control system (p. 141) |
| by Serre, Claude |
| On designing a control system for a new generation of accelerators (p. 147) |
| by Schaller, S C |
| DLX, the multiprocessor assembly for LEP/SPS controls (p. 152) |
| by Van der Stok, P D V |
| Building software modules for driving hardware controlling physical variables : an object-oriented approach(p. 155) |
| by Casalegno, L |
| The new applications software for the CERN super proton synchrotron (p. 158) |
| by Bailey, R |
| Autoconfiguration and device models in the SIS controlsystem (p. 164) |
| by Brandis, H |
| Recent experience with C-TREE : a data management system(p. 167) |
| by Normann, L |
| Flexible IEC bus interface software for VAX and CAMAC (p. 170) |
| by Allison, M |
| TICS-control system software for the TISOL facility at TRIUMF (p. 173) |
| by Keitel, R |
| Design principles of the high level controls structure for the CERN SPS (p. 177) |
| by Herr, Werner |
| Controlling the LEP pre-injector instrumentation : software architecture, implementation and experience(p. 181) |
| by Sicard, Claude Henri |
| The generation of the SPS supercycle (p. 184) |
| by Kornelis, K |
| A watchdog system for moveable devices in the Tevatron collider (p. 188) |
| by McClure, C |
| High precision digital loop for stabilization of UNK pulsed magnet excitation (p. 191) |
| by Dilmukhamedov, B |
| An intelligent environment neutron and $/gamma/$ monitoring system (p. 194) |
| by Jian Ping Li |
| A fast response hybrid linearised control system (p. 196) |
| by Lister, J B |
| Adaptive control technique for accelerators using digital signal processing (p. 200) |
| by Eaton, L |
| Toward automated beam optics control (p. 203) |
| by Silbar, R R |
| The SIN operator console functionality and performance (p. 207) |
| by Mezger, A C |
| The new control room infrastructure for the LEP and SPS accelerators (p. 210) |
| by Anderssen, P S |
| Analysis of the orbit errors in the CERN accelerators using model simulation (p. 213) |
| by Lee, M |
| A fault diagnosis expert system prototype for the CERN PS (p. 217) |
| by Malandain, E |
| The implementation of artificial intelligence in control systems (p. 221) |
| by Koul, R K |
| A knowledge based work station to control the trigger system of a high energy physics experiment (p. 224) |
| by Mornacchi, Giuseppe |
| Status and evolution of the centralized maintenance service related to the concurrent control of the accelerators of the PS complex (p. 228) |
| by Daems, G |
| Diagnosis, maintenance and reliability of the TRISTAN control system (p. 234) |
| by Kurihara, M |
| Aspects of process control equipment at GSI with respect to the new SIS/ESR project (p. 237) |
| by Poppensieker, K |
| User friendly far front ends (p. 238) |
| by Zagel, J R |
| Employment of a standardized communication protocol in a LAN based distributed control system (p. 241) |
| by Tenten, W |
| Real-time control networks for the LEP and SPS accelerators (p. 244) |
| by Rausch, R |
| The communication package for the equipment network of the LEP and SPS accelerators (p. 248) |
| by Bland, A |
| The communications infrastructure for the LEP collider (p. 253) |
| by Parker, C R C B |
| Contention resolution in a distributed control system (p. 256) |
| by Giachino, R |
| A CAMAC embedded real time executive with high level language for use at GANIL (p. 260) |
| by Ulrich, M |
| Fermilab accelerator control system : analog monitoring facilities(p. 264) |
| by Seino, K |
| Integral protection and fault diagnostics for interconnected timing systems in a large accelerator complex (p. 268) |
| by Knott, J E |
| A programmable finite state module for use with the Fermilab TEVATRON clock (p. 272) |
| by Beechy, D |
| Experience with using the SASD methodology for production of accelerator control software (p. 276) |
| by Bailey, R |
| Control system's architecture (p. 283) |
| by Rausch, R |
| Process interfacing and distributed intelligence (p. 309) |
| by Rabany, Michel |
| Applications structures (p. 333) |
| by Daneels, A |
| Operational aspects and exploitation (p. 359) |
| by Potier, J P |
| Automation (p. 395) |
| by Keyser, R |
| Building the next large accelerator control system (p. 423) |
| by Kuiper, B |
| The VMEbus (p. 453) |
| by Eck, C |
| Principles and comparison of major buses (p. 467) |
| by Nicoud, J D |
| Program development environments (p. 493) |
| by Krakowiak, S |
| Applying structured methods to software design (p. 505) |
| by Harvey, J |
| Object-oriented design principles (p. 523) |
| by Nierstrasz, O M |
| Underlying principles of expert systems (p. 541) |
| by Pellegrini, C |
| Telescope control at the European Southern Observatory (37 abstract only) |
| by Ziebell, M |
| The TFTR computer system : lessons learned(50 abstract only) |
| by Davis, S L |
| The OPACS expert system (563 abstract only) |
| by Lagache, J C |
