Li, T., ed., 1985, Optical Fiber Communications, Vol. 1: Fiber Fabrication, Academic Press, New York.

Jaluria, Y., 2017, “Thermal Transport in the Manufacture of Optical Fibers,” Ann. Rev. Heat Transfer, 20, pp. 193–239.

[CrossRef]Ozisik, M. N., 2000, Inverse Heat Transfer: Fundamentals and Applications, Taylor & Francis, Philadelphia, PA.

Orlande, H. R. B., Fudym, O., Maillet, D., and Cotta, R. M., 2011, Thermal Measurements and Inverse Techniques, Taylor and Francis Group, CRC Press, Boca Raton, FL.

Orlande, H. R. B., 2012, “Inverse Problems in Heat Transfer: New Trends on Solution Methodologies and Applications,” ASME J. Heat Transfer, 134(3), p. 031011.

[CrossRef]Ghosh, A., and Mallik, A. K., 1986, Manufacturing Science, Ellis Horwood, Chichester, UK.

Jaluria, Y., 1984, “Numerical Study of the Thermal Processes in a Furnace,” Numer. Heat Transfer, 7(2), pp. 211–224.

[CrossRef]Jarny, Y., Ozisik, M. N., and Bardon, J. P., 1991, “A General Optimization Method Using Adjoint Equation for Solving Multidimensional Inverse Heat Conduction,” Int. J. Heat Mass Transfer, 34(11), pp. 2911–2919.

[CrossRef]Prud'homme, M., and Nguyen, T. H., 2001, “Solution of Inverse Free Convection Problems by Conjugate Gradient Method: Effects of Rayleigh Number,” Int. J. Heat Mass Transfer, 44, pp. 2011–2027.

[CrossRef]Burmeister, L. C., 1993, Convective Heat Transfer, 2nd ed., Wiley Interscience, New York.

Stikker, U. O., 1970, “Numerical Simulation of the Coil Annealing Process,” Math. Models Metall. Proc. Dev., Iron Steel Inst., Spec. Rep., 123, pp. 104–113.

Harvey, G. F., 1977, “Mathematical Simulation of Tight Coil Annealing,” J. Australas. Inst. Met., 22, pp. 28–37.

Jaluria, Y., 2008, Design and Optimization of Thermal Systems, 2nd ed., CRC Press, Boca Raton, FL.

Cheng, X., and Jaluria, Y., 2005, “Effect of Furnace Thermal Configuration on Optical Fiber Heating and Drawing,” Numer. Heat Transfer, 48(6), pp. 507–528.

[CrossRef]Paek, U. C., 1999, “Free Drawing and Polymer Coating of Silica Glass Optical Fibers,” ASME J. Heat Transfer, 121(4), pp. 775–788.

[CrossRef]Izawa, T., and Sudo, S., 1987, Optical Fibers: Materials and Fabrication, KTK Scientific Publishers, Tokyo, Japan.

Issa, J., Yin, Z., Polymeropoulos, C. E., and Jaluria, Y., 1996, “Temperature Distribution in an Optical Fiber Draw Tower Furnace,”

J. Mater. Process. Manuf. Sci., 4(3), pp. 221–232.

Ma, Q., Luo, Y., Rossmann, T., Knight, D., and Jaluria, Y., 2006, “Diode Laser Measurements for DDDAS: Flow Field Reconstruction Using Dynamic Experimental and Numerical Data,” AIAA Paper No. 2006-2974.

Knight, D., Ma, Q., Rossman, T., and Jaluria, Y., 2007, “Evaluation of Fluid-Thermal Systems by Dynamic Data Driven Application Systems—Part II,”

International Conference on Computational Science, Reading, UK, May 28–31, pp. 1189–1196.

Vanderveer, J. R., and Jaluria, Y., 2013, “Solution of an Inverse Convection Problem by a Predictor–Corrector Approach,” Int. J. Heat Mass Transfer, 65, pp. 123–130.

[CrossRef]Vanderveer, J. R., and Jaluria, Y., 2015, “Optimization of an Inverse Convection Solution Strategy,” Int. J. Heat Mass Transfer, 73, pp. 664–670.

[CrossRef]Mossi, A., Vielmo, H., Franca, F., and Howell, J., 2008, “Inverse Design Involving Combined Radiative and Turbulent Convective Heat Transfer,” Int. J. Heat Mass Transfer, 51(11–12), pp. 3217–3226.

[CrossRef]Hong, Y. K., Baek, S. W., and Kim, M. Y., 2010, “Inverse Natural Convection Problem With Radiation in Rectangular Enclosure,” Numer. Heat Transfer, 57(5), pp. 315–330.

[CrossRef]Park, H., and Chung, O., 1999, “An Inverse Natural Convection Problem of Estimating the Strength of a Heat Source,” Int. J. Heat Mass Transfer, 42(23), pp. 4259–4273.

[CrossRef]Ghosh, S., Pratihar, D., Maiti, B., and Das, P., 2011, “Inverse Estimation of Location of Internal Heat Source in Conduction,” Inverse Probl. Sci. Eng., 19(3), pp. 337–361.

[CrossRef]Ostrach, S., 1953, “An Analysis of Laminar Free-Convection Flow and Heat Transfer About a Flat Plate Parallel to the Direction of the Generating Body Force,” NASA, Washington, DC, Report No.

NACA-TR-1111.

Tabrizi, A. B., and Jaluria, Y., 2018, “An Optimization Strategy for the Inverse Solution of a Convection Heat Transfer Problem,” Int. J. Heat Mass Transfer, 124, pp. 1147–1155.

[CrossRef]Poli, R., 2008, “Analysis of the Publications on the Applications of Particle Swarm Optimization,” J. Artif. Evol. Appl., 2008, pp. 1–10.

Kennedy, J., 1997, “The Particle Swarm: Social Adaptation of Knowledge,” IEEE International Conference on Evolutionary Computation, Indianapolis, IN, Apr. 13–16, pp. 303–308.