Sudhendu rai publications list (including issued patents)

Journals and Book Chapters
1. Ghosh, A., Rai, S. and Gupta, A., 1988. A possible servomechanism for matter distribution yielding flat
rotation curves in spiral galaxies. Astrophysics and space science, 141(1), pp.1-7.
2. Rai, S., 1994. Computer-aided structure redesignofhigh speed electromechanicalsystems forimproved
control. MIT Phd Thesis
3. Rai, S., Asada, H., 1994. “Computer-Aided Structure Modification of Electromechanical Systems Using
Singular Value Decomposition”. ASME Journal of Mechanical Design.
4. Rai, S. and Asada, H., 1995. Integrated structure/control design of high speed flexible robots based on
time optimal control.
5. Rai, S., Duke, C.B., Lowe, V., Quan-Trotter, C. and Scheermesser, T., 2009. LDP lean document
production—OR-enhanced productivity improvements for the printing industry. Interfaces, 39(1), pp.69-
90.
6. Rai, S. and Gurunatha, T., 2010. Integrating LDP Lean Document Production solution within the DMEDI
Methodology. International Journal of Performability Engineering, 6(6).
7. Rai, S., 2011. Data-Driven Simulation-EnhancedOptimizationofPeople-BasedPrint ProductionService.
In Service Systems Implementation (pp. 9-36). Springer, Boston, MA.
8. Rai, S., 2013. ImplementationofLeanDocument ProductioninthePrintingIndustry. International Journal
of Performability Engineering, 9(1).
9. Rai, S., Gross, E. and Ettam, R.K., 2015. Simulation-based optimization using greedy techniques and
simulated annealing for optimal equipment selection within print production environments. In Applied
simulation and optimization (pp. 277-301). Springer, Cham.
10. Rai, S., Ettam, R.K., 2016. Autonomous Cell Based Storage Location Assignment Strategy in Print
Production Environments. International Journal of Performability Engineering, 12(1), p.45.
Conference Papers and Invited Talks
Design optimization and control of Electromechanical Systems
1. Asada, H., Park, J.H., Rai, S., “A Control Configured Flexible Arm: Integrated Structure/Control Design”.
Proceedings of the IEEE Conference on Robotics and Automation, San Fransisco, CA. (pp. 2356-2362).
2. Rai, S., Asada, H.,” Integrated Structure/Control Design Using Finite Element Models- Preliminary Results”.
Proceedings of the 1991 American Control Conference, Boston, MA. (pp. 1433-1434).
3. Rai, S., Asada, H., “Computer-Aided Structure Redesign for Improved System Dynamics and Its Application
to Flexible Robot Design”. In Control of Systems with Inexact Dynamic Models. DSC Vol-33. Presented at
the ASME Winter Annual Meeting, Atlanta, Georgia, 1991. (pp. 149-159).
4. Rai, S., Asada, H., “Computer-Aided Structure Modification of Electromechanical Systems Using Singular
Value Decomposition”. Advances in Design Automation, 1992, Vol. 1 DE44-1. (pp 1-9). Also presented at the
ASME Design Automation Conference, Scottsdale, Arizona, September 1992.
5. Rai, S., Asada H., “Integrated Structure/Control Design of High Speed Flexible Robots Based on Time
Optimal Control”. Proceedings of the ASME Winter Annual Meeting, New Orleans (1993).
6. Chen-Todt, J., Ramesh, P.S., Rai, S., “Development and Validation of Corona Electrostatic Field Models to
Assist inElectrophotographic HardwareDesigns”. Presentedat the1997AmericanPhysical SocietyMeeting.
7. Rai, S., “Computationally SimpleXerographic Subsystem Models forSystem Model Synthesis UsingMARS”.
Proceedings of the 23rd ASME Design Automation Conference, Sacramento, CA (1997).
8. Rai,S.,”Multiobjective Optimization and Quantitative Trade-off Analysis in Xerographic System Design”.
Proceedings of the 9th ASME Design Theory and Methodology Conference, Sacramento, CA (1997).
9. Rai, S., Jackson, M., “Tolerance Allocation in System Design Based on Multiobjective Optimization”.
Proceedings of the 23rd ASME Design Automation Conference, Sacramento, CA (1997).

10. Rai, S., Ramesh, P.S., Tan, C., 1998. “Virtual Prototyping of Xerographic Components”. Proceedings of the
1998 ASME DETC in Computers In Engineering Conference, Atlanta, GA.
11. Rai,S., “Optimal Setpoint Determination In Experiments with Multiple Output Responses”. Proceedings of the
1998 ASME DETC, 10th International Conference on Design Theory & Methodology.
12. Rai, S.” Design Optimization of Planar Robots Based on Time Optimal Control”. Proceedings of the 1998
IEEE Conference on Control Applications, Trieste, Italy.
13. Rai, S. “ System Identification and Machine Setup of Color Xerographic Machines Using Multivariate
Modeling and Multiobjective Optimization”. Proceedings of the 1998 IEEE Conference on Control
Applications, Trieste, Italy.
14. Rai, S. “A Hybrid Hierarchical Control Architecture for Paper Transport Systems”. 1998 IEEE Conference on
Decision and Control.
15. Rai,S., Jackson, W.B., “Collaborative Design of Electromechanical Systems with Distributed Control”. 1999
ASME Design Theory Methodology Conference.
Design optimization and control of Small, Medium and Large (Document) Production Operations
16. Rai,S., King, Y., Gershwin, S.B., G. Williams,”ADF or LDF? Introducing the Lean Document Factory”
Presented at the 1999 Xplor conference in Los Angeles.
17. Rai,S., “Printshops as Document Factories”. MIT Workshop on “The Future of Manufacturing”. 2000
18. Rai, S., 2000, January. Setpoint determination of printing systems using multiobjective optimization. In NIP &
Digital Fabrication Conference (Vol. 2000, No. 1, pp. 164-166). Society for Imaging Science and Technology.
19. Bolte, S.B., Mihalyov, K.J., Rai, S. and Thieret, T.E., 2001. Process Control: From Developer Charging to
Production Shop Management. International Conference on Digital Production Printing and Industrial
Applications
20. Rai, S. “Characteristics of Print Shops as Manufacturing Systems and Solutions to Improve Their
Productivity”. FourthAegeanConference onthe Analysis ofManufacturingSystem.July 2003. Samos Island,
Greece.
21. Rai, S., Viassolo, D., “A Lean Document Production Controller for Print Shop Management”. IEEE
Conference on Decision and Control, Maui, Hawaii. (Dec-2003).
22. Rai, S. “A Methodology for the Design and Efficient Operation of PrintShops”. Fifth International Conference
on the Analysis of Manufacturing Systems – Production Management. “ May, 2005. Zakynthos, Greece.
23. Lin, J. , Rai, S. “LDP Lean Document Production: A novel solution for the printing industry”. IIE Annual
Conference and Expo 2007. May 19-23
24. Handley, J.C., Rai, S., Dalal, S., “Forecasting demand in large print shops”. 16th Annual Frontiers in Service
Conference. Oct 4-7, 2007. San Francisco
25. Rai, S. 2007. A Simulation-BasedFramework fortheDesignand Operation of Print Shops withHigh Product
Variety”. INFORMS Winter Annual Meeting, Seattle.
26. Rai, S., 2008. Productivity Improvement Solutions for Manufacturing Systems with Highly Variable Inputs
(Presentation). In IIE Annual Conference. Proceedings (p. 1). Institute of Industrial and Systems Engineers
(IISE).
27. Rai, S., 2008. Fat-tail inputs in manufacturing systems. In IIE Annual Conference. Proceedings (p. 1089).
Institute of Industrial and Systems Engineers (IISE).
28. Rai, S. 2008. The LDP Lean Document Production Solution. Netcentricity Conference, University of
Maryland.
29. Rai, S., Quan-Trotter, C. 2008. LDP Lean Document Production: Architecture of the system with software
demonstration. Job Shop Lean Conference - Ohio State University, Columbus.
30. Rai, S., Quan-Trotter, C. 2008. LDP Lean Document Production: Experiences gainedfrom system rolloutand
future work. Job Shop Lean Conference - Ohio State University, Columbus.
31. Rai, S., Quan-Trotter C., Scheermesser T., Lowe V., Burke T., Williams G., 2009. Xerox LDP offering is a
simulation-based print production operational framework. 18th Annual Frontiers in Service Conference,
Honolulu, HI. Service Innovation Practice Finalist sponsored by SRII.

32. Zhou, R., Rai, S. and Do, M., 2011. Job Scheduling in Lean Document Production. Twenty-First
International Conference on Automated Planning and Scheduling (ICAPS-11)
33. Rai,S., Quan-Trotter, C., 2011. Lean Document Production: A Simulation-based methodology for optimizing
print shops. 61st IIE Conference and Expo. (Nevada). First Place at IIE Lean Best Practice Award.
34. Rai, S. and Ettam, R.K., 2013, December. Simulation-based optimization using simulated annealing for
optimal equipment selection within print production environments. In 2013 Winter Simulations Conference
(WSC) (pp. 1097-1108). IEEE.
35. Rai, S., Productivity improvement of a large complex transaction print production and mail environment
utilizing simulation-based modeling and short-interval scheduling. 2014 Winter Simulation Conference. IEEE.
36. Rai, S. and Daniels, M., 2015, December. An event-log analysis and simulation-based approach for
quantifying sustainability metrics in production facilities. In 2015 Winter Simulation Conference (WSC) (pp.
1033-1043). IEEE.
37. Rai, S., Hu, B. and Ettam, R.K., 2015, December. Modeling customer demand in print service environments
using bootstrapping. In 2015 Winter Simulation Conference (WSC) (pp. 598-608). IEEE.
Design optimization and control of (Digital) Business Processes
38. Rai,S. 2018. Process Wind Tunnel for Improving Insurance Business Processes. INFORMS Business
Analytics Conference, Baltimore, MD.
39. Rai, S. 2018. Process Wind Tunnel for Improving Business Processes. In 2018 International Conference on
Process Mining.
40. Rai, S., 2018. Process Wind Tunnel for Improving Business Processes. Process Mining Camp 2018.
https://youtu.be/b7MtF0PlDxo
41. Rai,S. 2019. Optimization of Service Operations Using Process Wind Tunnel. Process Mining Camp 2019.
https://youtu.be/ujEoPiuo9As
42. Rai, S. 2019. Process Wind Tunnel: Data-driven process optimization. AI Summit San Francisco, 2019.
43. Rai, S. 2020. SupportingDigital Transformationby LinkingStrategy toOperations. Panel Discussion. Process
Excellence Network 2020.
44. Rai, S. 2021. Process Wind Tunnel : A novel capability for data-driven business process improvement.
Process Excellence Network 2021.
45. Rai, S. 2021. Automatic Generation of Simulation Model Using Process Templates. 2021 Anylogic
Conference. https://www.youtube.com/watch?v=xz295p_wS1k
46. Rai, S. 2021. Process Wind Tunnel for Improving Business Process. 2021 Winter Simulation Conference.
2021.
Patents
1. Patent # 5,774,761
June 30, 1998
Machine set up procedure using multivariate modeling and multiobjective optimization
Inventor: Sudhendu Rai
2. Patent # 5,999,758
December 7, 1999
Hybrid hierarchical control architecture for media handling
Inventors: Rai; Sudhendu (Pennfield, NY), Jackson; Warren B. (San Francisco, CA),
Biegelsen; David K. (Portola Valley, CA), Wolf; Barry
3. Patent # 6,002,890
December 14, 1999
Feedback between marking and paper path subsystems to reduce shutdowns
Inventors: Jackson; Warren B. (San Francisco, CA), Rai; Sudhendu (Penfield, NY)

4. Patent # 6,278,907
August 21, 2001
Apparatus and method of distributing object handling
Inventors: Fromherz; Markus P. J. (Palo Alto, CA), Rai; Sudhendu (Penfield, NY)
5. Patent # 6,322,069
November 27, 2001
Interpaper spacing control in a media handling system
Inventors: Krucinski; Martin (Webster, NY), Cloet; Carlo (Berkeley, CA), Tomizuka;
Masayoshi (Berkeley, CA), Horowitz; Roberto (El Cerrito, CA), Rai; Sudhendu (Penfield,
NY), Kamprath; David R. (Webster, NY), Li; Perry Y. (Minneapolis, MN)
6. Patent # 6,411,864
June 25, 2002
Apparatus and method of distributed object handling
Inventors: Fromherz; Markus P. J. (Palo Alto, CA), Rai; Sudhendu (Penfield, NY)
7. Patent # 6,573,910
June 3, 2003
Interactive distributed communication method and system for bidding on, scheduling,
routing and executing a document processing job
Inventors: Duke; Charles B. (Webster, NY), Jackson; Warren B. (San Francisco, CA), Rai;
Sudhendu (Penfield, NY)
8. Patent # 6,633,821
October 14, 2003
System for sensing factory workspace
Inventors: Jackson; Warren B. (San Francisco, CA), Rai; Sudhendu (Fairport, NY), Zhao;
Feng (Campbell, CA)
9. Patent # 6,805,502
October 19, 2004
Method for determining optimal batch sizes for processing print jobs in a printing
environment
Inventors: Rai; Sudhendu (Fairport, NY), Maitra; Samaresh C. (Webster, NY)
10. Patent # 7,051,328
May 23, 2006
Production server architecture and methods for automated control of production document
management
Inventors: Rai; Sudhendu (Fairport, NY), Viassolo; Daniel (Penfield, NY)
11. Patent # 7,064,848
June 20, 2006
System and method for converting print jobs stored in printshop job description language
files into printshop workflow
Inventors: Jackson; Warren B. (San Francisco, CA), Rai; Sudhendu (Fairport, NY)

12. Patent # 7,065,567
June 20, 2006
Production server for automated control of production document management
Inventors: Squires; David Forrest (Glendale, CA), Rai; Sudhendu (Fairport, NY)
13. Patent # 7,079,266
June 18, 2006
Printshop resource optimization via the use of autonomous cells
Inventors: Rai; Sudhendu (Fairport, NY), Godambe; Ashok V. (Pittsford, NY), Duke;
Charles B. (Webster, NY), Williams; Guy H. (Webster, NY)
14. Patent # 7,125,179
October 24, 2006
System and method of evaluating print shop consolidation options in an enterprise
Inventors: Rai; Sudhendu (Fairport, NY), Lin; Jie (Webster, NY)
15. Patent # 7,242,302
July 10, 2007
Systems and methods for capturing workflow information
Inventors: Rai; Sudhendu (Fairport, NY), Mayer; James L. (Rochester, NY)
16. Patent # 7,430,056
September 30, 2008
17. Patent # 7,542,161
June 2, 2009
System and method for determining an optimal batch size for a print job
Inventors: Lin; Jie (Webster, NY), Jacobs; Timothy W. (Fairport, NY), Rai;
Sudhendu (Fairport, NY)
18. Patent # 7,626,717
December 1, 2009
Print job allocation system and method
19. Patent # 7,755,778
July 13, 2010
Print job management system
Inventors: Rai; Sudhendu (Fairport, NY), Zhang; Zhenyu (Cambridge, MA)
20. Patent # 7,797,189
September 14, 2010
System and method of forecasting print job related demand
Inventors: Rai; Sudhendu (Fairport, NY), Handley; John C (Fairport, NY), Sperry; Robert
H (Pittsford, NY)

21. Patent # 7,810,095
October 5, 2010
Method and system for characterizing elements of a print production queuing model
Inventors: Rai; Sudhendu (Fairport, NY)
22. Patent # 7,860,602
December 28, 2010
Mail processing system
23. Patent # 7,925,460
April 12, 2011
System and method for improving print shop operability
Inventors: Rai; Sudhendu (Fairport, NY), Handley; John C (Fairport, NY)
24. Patent # 7,953,681
May 31, 2011
System and method of forecasting print job related demand
25. Patent # 7,999,956
August 16, 2011
System and method for improving print shop operation
26. Patent # 8,059,292
November 15, 2011
System and method for assigning print jobs to autonomous cells in a transaction printing
environment
27. Patent # 8,074,221
December 6, 2011
Job allocation method for document production
28. Patent # 8,107,106
January 31, 2012
System and method for improving print shop operation
29. Patent # 8,111,417
February 7, 2012
Method and apparatus for modeling print jobs
Inventors: Rai; Sudhendu (Fairport, NY), Gartstein; Yuri (Webster, NY)
30. Patent # 8,120,801

February 21, 2012
Print job management system for managing disturbances in a plurality of print jobs
Inventors: Zhang; Zhenyu (Cambridge, MA), Rai; Sudhendu (Fairport, NY)
31. Patent # 8,127,012
February 28, 2012
System and methods for efficient and adequate data collection in document production
environments
32. Patent # 8,134,743
March 13, 2012
Methods and systems for routing and processing jobs in a production environment
33. Patent # 8,144,364
March 27, 2012
Methods and systems for processing heavy-tailed job distributions in a document
production environment
34. Patent # 8,145,517
March 27, 2012
Methods and systems for scheduling job sets in a production environment
35. Patent # 8,164,777
April 24, 2012
Method and apparatus for modeling print jobs
Inventors: Rai; Sudhendu (Fairport, NY), Gartstein; Yuri (Webster, NY)
36. Patent # 8,190,488
May 29, 2012
Methods and systems for evaluating the impact of consolidating print shops on inventory
levels
Inventors: Rai; Sudhendu (Fairport, NY), Regan; Patrick Dennis (Victor, NY)
37. Patent # 8,259,321
September 4, 2012
Methods and systems for scheduling disturbance jobs
Inventors: Zhang; Zhenyu (Cambridge, MA), Rai; Sudhendu (Fairport, NY)
38. Patent # 8,274,688
September 25, 2012
Capacity planning incorporating job size distribution
Inventors: Rai; Sudhendu (Fairport, NY), Handley; John C. (Fairport, NY)
39. Patent # 8,311,903
November 13, 2012

Methods and systems for evaluating the impact of migrating to a dynamic processing
environment
40. Patent # 8,310,700
November 13, 2012
Inventors: Rai; Sudhendu (Fairport, NY), Lin; Jie (Rochester, NY)
41. Patent # 8,379,255
February 19, 2013
Method and system of determining batch sizes for print jobs in a print production
environment
Inventors: Rai; Sudhendu (Fairport, NY), Tejada; Jeremy John (Londonderry, NH)
42. Patent # 8,386,286
February 26, 2013
System and method for the dynamic allocation of resources
Inventors: Srinivas; Sharath (Webster, NY), Kulkarni; Rakesh (Webster, NY), Rai;
43. Patent # 8,400,679
February 26, 2013
Workflow partitioning method and system
44. Patent # 8,427,670
April 23, 2013
System and method for improving throughput in a print production environment
45. Patent # 8.433,604
April 30, 2013
System for selecting an optimal sample set of jobs for determining price models for a print
market port
Inventors: Rai; Sudhendu (Fairport, NY), Purohit; Amarnath (Rochester, NY),
Quackenbush; James (Vernon, NJ), Zhao; Shi (Rochester, NY)
46. Patent # 8,464,268
June 11, 2013
Dynamic scheduling of jobs/batches using earliest completion time algorithm in cellular
manufacturing with batch-splitting of jobs above certain size
Inventors: Zhou; Rong (San Jose, CA), Rai; Sudhendu (Fairport, NY), Do; Minh Binh (Palo
Alto, CA)
47. Patent # 8,468,527
June 18, 2013
Method and system for optimal batching in a production environment

48. Patent # 8,472,093
June 25, 2013
Automated sourcing for multiple printing press, multiple web printing
Inventors: Purohit; Amarnath (Rochester, NY), Myers; Charles R. (Penfield, NY), Snow;
Lewis S. (La Crescenta, CA), Rai; Sudhendu (Fairport, NY)
49. Patent # 8,498,009
July 30, 2013
System and method for identifying a cause of lateness of a print job in a print production
environment
Inventors: Srinivas; Sharath (Webster, NY), Rai; Sudhendu (Fairport, NY), Gross; Eric
Michael (Rochester, NY)
50. Patent # 8,520,254
August 27, 2013
Methods and systems for processing a set of print jobs in a print production environment
51. Patent # 8,521,549
August 27, 2013
Methods and systems for recommending vendors to submit bids for a print job
Inventors: Peng; Wei (Webster, NY), Zhao; Shi (Rochester, NY), Rai; Sudhendu (Fairport,
NY), Ashby; David Thomas (Pittsford, NY)
52. Patent # 8,559,040
October 15, 2013
Method and system for performing statistical throughput control in a print shop
Inventors: Gross; Eric Michael (Rochester, NY), Srinivas; Sharath (Webster, NY), Rai;
Sudhendu (Fairport, NY), Elliot; Jack Gaynor (Penfield, NY)
53. Patent # 8,570,579
October 29, 2013
Method and system for performing statistical throughput control in a print shop
Inventors: Rai; Sudhendu (Fairport, NY), Ettam; Ranjit Kumar (Pradesh, IN), Lambrecht;
Craig Charles (Rochester, NY)
54. Patent # 8,599,421
December 3, 2013
Method for managing one or more print processing queues
55. Patent # 8,619,305
December 31, 2013
Methods and systems for determining sustainability metrics in a print production environment
Inventors: Rai; Sudhendu (Fairport, NY), Lambrecht; Craig Charles (Rochester, NY)
56. Patent # 8,660,883
February 25, 2014
System and method of estimating the cost of a print job

Inventors: Rai; Sudhendu (Fairport, NY), Lambrecht; Craig Charles (Rochester, NY)
57. Patent # 8,675,231
March 18, 2014
Methods and systems for load leveling in a print shop
Inventors: Gross; Eric Michael (Rochester, NY), Jacobs; Timothy Wayne (Fairport, NY),
Elliot; Jack Gaynor (Penfield, NY), Srinivas; Sharath (Webster, NY), Rai;
Sudhendu (Webster, NY)
58. Patent # 8,676,666
March 18, 2014
System for assessing environmental impact of processing print jobs
Inventors: Khachatrian; Araz (Pittsford, NY), Snow; Lewis S. (La Crescenta, CA), Rai;
59. Patent # 8,725,546
May 13, 2014
Workflow scheduling method and system
60. Patent # 8,769,542
July 1, 2014
System for adaptive lot sizing in cellular manufacturing for balancing workloads across
multiple cells using split-then-merge operations and earliest completion route algorithm
Alto, CA)
61. Patent # 8,781,871
July 15, 2014
Methods and systems for assigning operators to print production cells based on
relationships
62. Patent # 8,781,872
July 15, 2014
Methods and systems for assigning operators to print production cells based on
relationships
63. Patent # 8,798,403
August 5, 2014
System and method for capturing production workflow information
Inventors: Elliot; Jack Gaynor (Penfield, NY), Srinivas; Sharath (Webster, NY), Gross; Eric
Michael (Rochester, NY), Rai; Sudhendu (Fairport, NY), Daniels; Marc Dennis (Webster,
NY)
64. Patent # 8,896,863
November 25, 2014
System and method of modeling customer demand in a print production environment
Inventors: Hu; Bo (Pittsford, NY), Rai; Sudhendu (Fairport, NY)

65. Patent # 8,896,867
November 25, 2014
Methods and systems for assigning jobs to production devices
Inventors: Gross; Eric Michael (Rochester, NY), Jacobs; Timothy Wayne (Fairport, FL),
Elliot; Jack Gaynor (Penfield, NY), Rai; Sudhendu (Fairport, NY)
66. Patent # 8,922,800
December 30, 2014
Methods and systems for selecting a location to store a production consumable
Inventors: Rai; Sudhendu (Fairport, NY), Ettam; Ranjit Kumar (Pradesh, IN), Kalpana
Padma; Raja Muthukrishnan (Chennai, IN), Daniels; Marc Dennis (Webster, NY)
67. Patent # 8,934,112
January 13, 2015
Methods and systems for allocating resources in a print production environment
Inventors: Gross; Eric Michael (Rochester, NY), Elliot; Jack Gaynor (Penfield, NY), Rai;
Sudhendu (Fairport, NY), Ettam; Ranjit Kumar (Pradesh, IN), Singh;
Anand (Karnataka, IN)
68. Patent # 8,982,378
March 17, 2015
Methods and systems for analyzing the impact of machine failure data on a print shop
Inventors: Rai; Sudhendu (Fairport, NY), Daniels; Marc Dennis (Webster, NY)
69. Patent # 9,111,247
August 18, 2015
System and methods for excess capacity in dynamic production systems
Inventors: Zhou; Rong (San Jose, CA), Rai; Sudhendu (Fairport, NY)
70. Patent # 9,189,262
November 17, 2015
Methods and systems for recommending solutions to performance issues in a print
production environment
Inventors: Rai; Sudhendu (Fairport, NY), Gross; Eric Michael (Rochester, NY)
71. Patent # 9,201,619
December 1, 2015
Methods and systems for assigning a job source to a hub in a print production environment
Inventors: Gross; Eric Michael (Rochester, NY), Rai; Sudhendu (Fairport, NY), Elliot; Jack
Gaynor (Penfield, NY)
72. Patent # 9,264,566
February 16, 2016
Print job production methods and systems in a large transaction print environment
Inventors: Rai; Sudhendu (Fairport, NY), Gross; Eric Michael (Rochester, NY)
73. Patent # 9,396,445
July 19, 2016

Controlled data collection system for improving print shop operation
74. Patent # 9,423,989
August 23, 2016
System and method for dynamically reconfiguring one or more autonomous cells in a print
shop environment
75. Patent # 9,639,306
May 2, 2017
Methods and systems for cell design in a production environment
Inventors: Gupta; Manoj (Bangalore, IN), Prabhakara; Jagadeesh Chandra Bose
Rantham (Andhra Pradesh, IN), Rai; Sudhendu (Fairport, NY), Dutta;
Partha (Bangalore, IN)
76. Patent # 10,282,144
May 7, 2017
System and method for distributed cellular manufacturing with outsourcing group
constraints
Alto, CA)
77. Patent # 10,445,679
October 15, 2019
System and method for distributed cellular manufacturing with outsourcing group
constraints
Inventors: Rai; Sudhendu (Fairport, NY), Ettam; Ranjit Kumar (Pradesh, IN)
78. Patent # 10,467,574
November 5, 2019
Methods and systems of forecasting customer demand in a print production environment
Inventors: Rai; Sudhendu (Fairport, NY), Ettam; Ranjit Kumar (Pradesh, IN)
79. Patent # 10,732,913
August 4, 2020
System and method for multi-site cellular manufacturing with transportation delays
Alto, CA), Lambrecht; Craig (Rochester, NY)

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