Vedeshenkov Viktor Alekseevich

Publications in Math-Net.Ru

1. Fragment method of restoring the operation of digital systems with the structure of a minimal quasicomplete graph with two paths between two users
   
   Avtomat. i Telemekh., 2018, no. 3,  76–91
2. Method of controlling test construction for digital systems with minimal quasicomplete graph structure (on example of graph by dimension $11\times 11$)
   
   Probl. Upr., 2018, no. 3,  33–39
3. The approach to an organization fault – tolerant digital systems with minimal quasicomplete graph structures with two paths between two abonents (an example of graph by dimension $11\times11$)
   
   UBS, 73 (2018),  157–183
4. A fragmentation approach to diagnosis of digital systems components with minimal quasicomplete graph structures (an example of 7x7 graph)
   
   UBS, 66 (2017),  171–197
5. Diagnosability of digital systems structured as minimal quasicomplete $7\times7$ graph
   
   Avtomat. i Telemekh., 2016, no. 3,  152–165
6. An approach to fragmentary diagnosing of digital systems components with minimal quasicomplete graph structure (on example of the graph by dimension $7\times7$)
   
   Probl. Upr., 2016, no. 6,  53–58
7. The organization of single faulty components diagnosing in digital systems with minimal quasicomplete graph structure by dimension $7\times7$ with two paths between two abonents
   
   Probl. Upr., 2016, no. 1,  65–72
8. On diagnosability of components in digital systems with structure of minimal quasicomplete 7х7 graph with 2 paths connecting 2 terminals
   
   UBS, 58 (2015),  90–114
9. On the route-oriented method of system diagnostics in digital systems structured as a symmetric bipartite graph
   
   Avtomat. i Telemekh., 2014, no. 9,  133–143
10. On diagnosing of digital systems with minimal quasicomplete graph structures by dimension $7\times7$
    
    Probl. Upr., 2014, no. 6,  68–76
11. An approach to diagnosing of the arising fault in digital systems with symmetric bipartite graph structures
    
    Probl. Upr., 2013, no. 2,  36–40
12. An Approach for multi-agent organization of system diagnostics for non-uniform digital systems with symmetric bipartite graph structure
    
    Avtomat. i Telemekh., 2010, no. 6,  142–154
13. One approach to diagnosing heterogeneous digital systems with symmetric bipartite graph structures
    
    Probl. Upr., 2010, no. 5,  48–56
14. An approach to multiagent organization of system diagnosis of digital systems structured as symmetrical bipartite graph
    
    Avtomat. i Telemekh., 2009, no. 11,  161–171
15. Organization of diagnosing of digital systems with symmetric bipartite graph structures
    
    Probl. Upr., 2009, no. 6,  59–67
16. Multiagent organization of system diagnosis of large toroidal digital systems
    
    Avtomat. i Telemekh., 2008, no. 2,  154–170
17. An approach to checkyng large-scale digital systems with toroidal grid-type structure
    
    Probl. Upr., 2007, no. 2,  35–39
18. An approach to self-diagnosis of nonuniform digital systems
    
    Avtomat. i Telemekh., 2006, no. 1,  162–177
19. A method for parcelling out the subsystems of sufficient dimension for parallel diagnosis of large digital systems with regular structure
    
    Probl. Upr., 2006, no. 5,  74–79
20. An approach to self-diagnosis of a newly developed fault in digital systems
    
    Avtomat. i Telemekh., 2005, no. 4,  127–140
21. A route-oriented self-diagnosis method for digital systems
    
    Avtomat. i Telemekh., 2005, no. 3,  154–168
22. Способ самодиагностирования неоднородных цифровых систем
    
    Probl. Upr., 2005, no. 4,  33–40
23. Local Self-Diagnosis of Failed Components in Digital Systems
    
    Avtomat. i Telemekh., 2004, no. 5,  126–141
24. System-level self-diagnosis of arising faults and their elimination in reconfigurable systems
    
    Probl. Upr., 2004, no. 3,  48–61
25. Self-Diagnosis of Digital Systems
    
    Avtomat. i Telemekh., 2003, no. 11,  165–182
26. Operability Restoration Procedure for Fault-Tolerant Digital Systems with Dynamic Redundancy
    
    Avtomat. i Telemekh., 2003, no. 5,  167–179
27. Using the Redundant Chords of the $k$-Fault-Tolerant Graph to Eliminate the Effect of Failed Components
    
    Avtomat. i Telemekh., 2003, no. 4,  114–122
28. System-level self-diagnosis of reconfigurable systems
    
    Probl. Upr., 2003, no. 4,  39–51
29. On the BGM Model-Based Diagnosis of Failed Modules and Communication Lines in Digital Systems
    
    Avtomat. i Telemekh., 2002, no. 2,  159–171
30. On the System Diagnostics of Faulty Modules and Connections in Hypercube Structures of Multiprocessor Networks
    
    Avtomat. i Telemekh., 2001, no. 12,  83–94
31. On diagnosis of failed modules in digital systems by three-module chains
    
    Avtomat. i Telemekh., 2000, no. 8,  156–164
32. On the duration of the self-diagnosing procedure for digital systems with failed modules
    
    Avtomat. i Telemekh., 1989, no. 5,  143–148
33. On Diagnosis of Faulty Modeles in Digital Systems by Incomplete Tests
    
    Avtomat. i Telemekh., 1985, no. 8,  122–132
34. On design of self-diagnosing digital systems
    
    Avtomat. i Telemekh., 1983, no. 7,  133–144
35. Choice of throughput for a set of processors in designing a family of special-purpose computer systems
    
    Avtomat. i Telemekh., 1982, no. 4,  150–159
36. On one way tо estimate redundancy of self-repairing computing
    
    Avtomat. i Telemekh., 1977, no. 6,  158–166
37. Locating a faulty unit by a sequence of diagnosing tests
    
    Avtomat. i Telemekh., 1977, no. 3,  126–137
38. One approach to organizing test diagnostics of faults in discrete devices to within a block
    
    Avtomat. i Telemekh., 1975, no. 8,  122–131
39. Microcontrol and diagnosis of faults in digital computers
    
    Dokl. Akad. Nauk SSSR, 187:4 (1969),  750–753
40. Фрагментный способ восстановления работоспособности цифровых систем со структурой минимального квазиполного графа с 2 путями между 2 абонентами (на примере графа размера 11х11)
    
    Avtomat. i Telemekh.,  0


41. The sixth International symposium on reliability of computer systems and processes
    
    Avtomat. i Telemekh., 1977, no. 11,  204–208
42. The fifth International symposium on reliability of computer systems and processes
    
    Avtomat. i Telemekh., 1976, no. 2,  200–204