1. A. I. Savitsky, L. N. Schukin, V. G. Karelin, A. M. Maas, A. P. Shibanov, A. P. Sobko, A. V. Ermishin, V. G. Khucishvilli, V. G. Pushkin, and R. M. Fischenko, Method for Control of the Boundary Layer on the Aerodynamic Surface of an Aircraft, and the Aircraft Provided with the Boundary Layer Control System, United States Patent No. 5417391, May 23, 1995.

2. P. A. Baranov, S. A. Isaev, Yu. S. Prigorodov, and A. G. Sudakov, Numerical modeling of the effect of improving the aerodynamic efficiency of profiles due to the suction in vortex cells, J. Eng. Phys. Thermophys., 72, No. 3, 550–553 (1999).

3. S. A. Isaev, Yu. S. Prigorodov, and A. G. Sudakov, Analysis of the efficiency of control of flow about bodies using vortex cells with allowance for energy expenditure, J. Eng. Phys. Thermophys., 75, No. 3, 579–583 (2002).

4. S. A. Isaev, P. A. Baranov, N. A. Kudryavtsev, I. A. Pyshnyi, and V. B. Kharchenko, Numerical simulation of a nonstationary turbulent flow around a thick profile with vortex cells in the presence of suction from the surfaces of central bodies, Aéromekh. Gaz. Dinam., No. 3, 3–15 (2002).

5. P. A. Baranov, S. A. Isaev, Yu. S. Prigorodov, and A. G. Sudakov, Controlling the turbulent flow past a thick airfoil by means of flow enhancement in a vortex cells using suction from central body surfaces, Fluid Dynamics, 38, No. 3, 387–396 (2003).