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April 10, 2013 - June 5, 2026

Available Issues

April 10, 2013 - June 5, 2026

Discretionary Task Ordering: Queue Management in Radiological Services

Published Online:30 Aug 2017https://doi.org/10.1287/mnsc.2017.2810

References

  • Allcott H, Sweeney RL (2017) The role of sales agents in information disclosure: Evidence from a field experiment. Management Sci. 63(1):21–39.LinkGoogle Scholar
  • Amar M, Ariely D, Ayal S, Cryder CE, Rick SI (2011) Winning the battle but losing the war: The psychology of debt management. J. Marketing Res. 48(SPL):S38–S50.CrossrefGoogle Scholar
  • Anand KS, Paç MF, Veeraraghavan S (2011) Quality–speed conundrum: Trade-offs in customer-intensive services. Management Sci. 57(1):40–56.LinkGoogle Scholar
  • Argote L, Miron-Spektor E (2011) Organizational learning: From experience to knowledge. Organ. Sci. 22(5):1123–1137.LinkGoogle Scholar
  • Bandura A (1977) Self-efficacy: Toward a unifying theory of behavioral change. Psych. Rev. 84(2):191–215.CrossrefGoogle Scholar
  • Bassamboo A, Randhawa RS (2016) Scheduling homogeneous impatient customers. Management Sci. 62(7):2129–2147.LinkGoogle Scholar
  • Bendoly E, Donohue K, Schultz KL (2006) Behavior in operations management: Assessing recent findings and revisiting old assumptions. J. Oper. Management 24(6):737–752.CrossrefGoogle Scholar
  • Bendoly E, Swink M, Simpson WP (2014) Prioritizing and monitoring concurrent project work: Effects on switching behavior. Production Oper. Management 23(5):847–860.CrossrefGoogle Scholar
  • Berman O, Larson RC, Pinker E (1997) Scheduling workforce and workflow in a high volume factory. Management Sci. 43(2):158–172.LinkGoogle Scholar
  • Berry Jaeker JA, Tucker AL (2017) Past the point of speeding up: The negative effects of workload saturation on efficiency and patient quality. Management Sci. 63(4):1042–1062.LinkGoogle Scholar
  • Boudreau J, Hopp W, McClain JO, Thomas LJ (2003) On the interface between operations and human resources management. Manufacturing Service Oper. Management 5(3):179–202.LinkGoogle Scholar
  • Bowman EH (1963) Consistency and optimality in managerial decision making. Management Sci. 9(2):310–321.LinkGoogle Scholar
  • Campbell D, Frei FX (2011) Market heterogeneity and local capacity decisions in services. Manufacturing Service Oper. Management 13(1):2–19.LinkGoogle Scholar
  • Davis AM, Katok E, Santamaría N (2014) Push, pull, or both? A behavioral study of how the allocation of inventory risk affects channel efficiency. Management Sci. 60(11):2666–2683.LinkGoogle Scholar
  • Delasay M, Ingolfsson A, Kolfal B, Schultz K (2017) Load effect on service times. Working paper, School of Business, University of Alberta, Edmonton, Canada.Google Scholar
  • Fisher ML, Ittner CD (1999) The impact of product variety on automobile assembly operations: Empirical evidence and simulation analysis. Management Sci. 45(6):771–786.LinkGoogle Scholar
  • Frederick S, Novemsky N, Wang J, Dhar R, Nowlis S (2009) Opportunity cost neglect. J. Consumer Res. 36:553–561.CrossrefGoogle Scholar
  • Freeman M, Savva N, Scholtes S (2017) Gatekeepers at work: An empirical analysis of a maternity unit. Management Sci. 63(10):3147–3167.LinkGoogle Scholar
  • Froehle CM, White DL (2014) Interruption and forgetting in knowledge-intensive service environments. Production Oper. Management 23(4):704–722.CrossrefGoogle Scholar
  • Gal D, McShane BB (2012) Can small victories help win the war? Evidence from consumer debt management. J. Marketing Res. 49(4):487–501.CrossrefGoogle Scholar
  • Gans N, Koole G, Mandelbaum A (2003) Telephone call centers: Tutorial, review, and research prospects. Manufacturing Service Oper. Management 5(2):79–141.LinkGoogle Scholar
  • Gino F, Pisano GP (2008) Toward a theory of behavioral operations. Manufacturing Service Oper. Management 10(4):676–691.LinkGoogle Scholar
  • Goh J, Hall NG (2013) Total cost control in project management via satisficing. Management Sci. 59(6):1354–1372.LinkGoogle Scholar
  • Greene W (2004) The behaviour of the maximum likelihood estimator of limited dependent variable models in the presence of fixed effects. Econometrics J. 7(1):98–119.CrossrefGoogle Scholar
  • Gurvich I, O’Leary K, Van Mieghem JA, Wang L (2017) Collaboration, interruptions and changeover times: Model and empirical study of hospitalist processing times. (August 18), https://ssrn.com/abstract=2616926.Google Scholar
  • Halsted MJ, Froehle CM (2008) Design, implementation, and assessment of a radiology workflow management system. Amer. J. Roentgenology 191(2):321–327.CrossrefGoogle Scholar
  • Hasija S, Pinker E, Shumsky RA (2010) Work expands to fill the time available: Capacity estimation and staffing under Parkinson’s Law. Manufacturing Service Oper. Management 12(1):1–18.LinkGoogle Scholar
  • Heckman JJ (1978) Dummy endogenous variables in a simultaneous equation system. Econometrica 46(4):931–959.CrossrefGoogle Scholar
  • Hopp WJ, Iravani SMR, Yuen GY (2007) Operations systems with discretionary task completion. Management Sci. 53(1):61–77.LinkGoogle Scholar
  • Hossain T, List JA (2012) The behavioralist visits the factory: Increasing productivity using simple framing manipulations. Management Sci. 58(12):2151–2167.LinkGoogle Scholar
  • Huckman RS, Pisano GP (2006) The firm specificity of individual performance: Evidence from cardiac surgery. Management Sci. 52(4):473–488.LinkGoogle Scholar
  • Huckman RS, Staats BR, Upton DM (2009) Team familiarity, role experience, and performance: Evidence from Indian software services. Management Sci. 55(1):85–100.LinkGoogle Scholar
  • KC D, Staats BR (2012) Accumulating a portfolio of experience: The effect of focal and related experience on surgeon performance. Manufacturing Service Oper. Management 14(4):618–633.LinkGoogle Scholar
  • KC D, Terwiesch C (2009) Impact of workload on service time and patient safety: An econometric analysis of hospital operations. Management Sci. 55(9):1486–1498.LinkGoogle Scholar
  • Kim S-H, Chan CW, Olivares M, Escobar G (2015) ICU admission control: An empirical study of capacity allocation and its implication for patient outcomes. Management Sci. 61(1):19–38.LinkGoogle Scholar
  • Kremer M, Moritz B, Siemsen E (2011) Demand forecasting behavior: System neglect and change detection. Management Sci. 57(10):1827–1843.LinkGoogle Scholar
  • Lapré MA, Tsikriktsis N (2006) Organizational learning curves for customer dissatisfaction: Heterogeneity across airlines. Management Sci. 52(3):352–366.LinkGoogle Scholar
  • Lapré MA, Nembhard IM (2010) Inside the organizational learning curve. Foundations Trends Tech., Inform. Oper. Management 4(1):1–103.CrossrefGoogle Scholar
  • Lu Y, Hechling A, Olivares M (2014) Productivity analysis in services using timing studies. Working paper, Columbia University, New York.CrossrefGoogle Scholar
  • MacDuffie JP (1997) The road to “root cause”: Shop-floor problem-solving at three auto assembly plants. Management Sci. 43(4):479–502.LinkGoogle Scholar
  • Maddala GS (1983) Limited-Dependent and Qualitative Variables in Econometrics (Cambridge University Press, Cambridge, UK).CrossrefGoogle Scholar
  • Narayanan S, Balasubramanian S, Swaminathan JM (2009) A matter of balance: Specialization, task variety, and individual learning in a software maintenance environment. Management Sci. 55(11):1861–1876.LinkGoogle Scholar
  • Phillips R, Şimşek AS, Ryzin Gv (2015) The effectiveness of field price discretion: Empirical evidence from auto lending. Management Sci. 61(8):1741–1759.LinkGoogle Scholar
  • Pierce L, Snow D, McAfee A (2015) Cleaning house: The impact of information technology monitoring on employee theft and productivity. Management Sci. 61(10):2299–2319.LinkGoogle Scholar
  • Pinedo ML (2012) Scheduling: Theory, Algorithms, and Systems (Springer, New York).CrossrefGoogle Scholar
  • Pinedo ML, Yen BP-C (1997) On the design and development of object-oriented scheduling systems. Ann. Oper. Res. 70(1):359–378.CrossrefGoogle Scholar
  • Pisano GP, Bohmer RMJ, Edmondson AC (2001) Organizational differences in rates of learning: Evidence from the adoption of minimally invasive cardiac surgery. Management Sci. 47(6):752–768.LinkGoogle Scholar
  • Powell A, Savin S, Savva N (2012) Physician workload and hospital reimbursement: Overworked physicians generate less revenue per patient. Manufacturing Service Oper. Management 14(4):512–528.LinkGoogle Scholar
  • Roberti R, Bartolini E, Mingozzi A (2015) The fixed charge transportation problem: An exact algorithm based on a new integer programming formulation. Management Sci. 61(6):1275–1291.LinkGoogle Scholar
  • Saghafian S, Hopp WJ, Van Oyen MP, Desmond JS, Kronick SL (2014) Complexity-augmented triage: A tool for improving patient safety and operational efficiency. Manufacturing Service Oper. Management 16(3):329–345.LinkGoogle Scholar
  • Schultz KL, Juran DC, Boudreau JW (1999) The effects of low inventory on the development of productivity norms. Management Sci. 45(12):1664–1678.LinkGoogle Scholar
  • Schultz KL, McClain JO, Thomas LJ (2003) Overcoming the dark side of worker flexibility. J. Oper. Management 21(1):81–92.CrossrefGoogle Scholar
  • Schultz KL, Schoenherr T, Nembhard D (2010) An example and a proposal concerning the correlation of worker processing times in parallel tasks. Management Sci. 56(1):176–191.LinkGoogle Scholar
  • Schultz KL, Juran DC, Boudreau JW, McClain JO, Thomas LJ (1998) Modeling and worker motivation in JIT production systems. Management Sci. 44(12):1595–1607.LinkGoogle Scholar
  • Schweitzer ME, Cachon GP (2000) Decision bias in the newsvendor problem with a known demand distribution: Experimental evidence. Management Sci. 46(3):404–420.LinkGoogle Scholar
  • Shumsky RA, Pinker EJ (2003) Gatekeepers and referrals in services. Management Sci. 49(7):839–856.LinkGoogle Scholar
  • Simon HA (1978) Rationality as process and as product of thought. Amer. Econom. Rev. 68(2):1–16.Google Scholar
  • Staats BR, Gino F (2012) Specialization and variety in repetitive tasks: Evidence from a Japanese bank. Management Sci. 58(6):1141–1159.LinkGoogle Scholar
  • Staats BR, Brunner DJ, Upton DM (2011) Lean principles, learning, and knowledge work: Evidence from a software services provider. J. Oper. Management 29(5):376–390.CrossrefGoogle Scholar
  • Tan TF, Netessine S (2014) When does the devil make work? An empirical study of the impact of workload on server’s performance. Management Sci. 60(6):1574–1593.LinkGoogle Scholar
  • Taylor FW (1911) The Principles of Scientific Management (Harper & Brothers, New York).Google Scholar
  • Truong VA (2015) Optimal advance scheduling. Management Sci. 61(7):1584–1597.LinkGoogle Scholar
  • Tucker AL (2007) An empirical study of system improvement by frontline employees in hospital units. Manufacturing Service Oper. Management 9(4):492–505.LinkGoogle Scholar
  • Tucker AL, Nembhard IM, Edmondson AC (2007) Implementing new practices: An empirical study of organizational learning in hospital intensive care units. Management Sci. 53(6):894–907.LinkGoogle Scholar
  • van Donselaar K, Gaur V, van Woensel T, Broekmeulen R, Fransoo J (2010) Ordering behavior in retail stores and implications for automated replenishment. Management Sci. 56(5):766–784.LinkGoogle Scholar
  • Zhu E, Crainic TG, Gendreau M (2014) Scheduled service network design for freight rail transportation. Oper. Res. 62(2):383–400.LinkGoogle Scholar
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