1. Ardashev, K.A., Akhmatov, V.I., and Katkov, G.A., Metody i pribory dlya issledovaniya proyavleniy gornogo davleniya (Methods and Instruments for Studying Rock Pressure Manifestations), Moscow: Nedra, 1981.

2. Bizyaev, A.A. and Yakovitskaya, G.E., Monitoring Dynamic Rock Pressure Events Using Improved EME Recording Instrumentation, Journal of Mining Science, 2015, vol. 41, no. 5, pp. 957–963.

3. Yakovitskaya, G.E., Oparin, V.N., Seryakov, V.M., and Vostretsov, A.G., Measuring System for Joint Registration of Pressure, Displacement and Accompanying Electromagnetic Radiation during Uniaxial Compression of Rock Samples. Mechanical-Electromagnetic Conversion Coefficient, Geomechanical Fields and Processes: Experimental and Analytical Studies of the Formation and Development of Focal Zones of Catastrophic Events in Mining, Geotechnical and Natural Systems. Vol. 2, Novosibirsk: SO RAN, 2019.

4. He, S.Q., Song, D.Z., Li, Z.L., He, X.Q., Chen, J.Q., Li, D.H., and Tian, X.H., Precursor of Spatio-Temporal Evolution Law of MS and AE Activities for Rockburst Warning in Steeply-Inclined and Extremely-Thick Coal Seams under Caving Mining Conditions, Rock Mech. Rock Eng., 2019, vol. 52, pp. 2415–2435.

5. Lou, Q., Song, D., He, X., Li, Z., Qiu, L., Wei, M., and He, S., Correlations between Acoustic and Electromagnetic Emissions and Stress Drop Induced by Burst-Prone Coal and Rock Fracture, J. Safety Sci., 2019, vol. 115, pp. 310–319.