Dendrobium is the general name of all plants in Genus Dendrobium Sw. It is an important flower resource in orchid plants and has high ornamental and medicinal value. Crossbreeding is the main method to cultivate new varieties of Dendrobium, However, the breeding period of Dendrobium is long, and the whole breeding cycle usually takes several years. The identification of germplasm resources is the basis of breeding work. This study of the identification of the hybrid progeny lines of Dendrobium is expected to provide molecular basis for early selection of hybrid progeny and rapid identification of new varieties (lines), shorten the breeding cycle and accelerate the progress of Dendrobium breeding. As a new type of molecular marker, iPBS marker does not need to obtain the LTR sequence in advance. Compared with other molecular markers, it has the advantages of simplicity, efficiency and wide application. In the study, the authenticity of 19 hybrid F₁ lines of Dendrobium Pittero Gold 'Diamond Ring' × Dendrobium Btilliant Smile 'Hiromi' was identified by iPBS molecular marker technology, and perform genetic diversity and cluster analysis. Seven primers with clear amplification bands, high polymorphism and good repeatability were selected from 83 iPBS primers for the authenticity identification of hybrid progenies of Dendrobium. A total of 69 bands were amplified by the seven primers, of which 51 were polymorphic, and the polymorphic ratio was 73.91%. The 19 F₁ hybrid lines tested could amplify paternal characteristic bands and were identified as true hybrids. A large number of paternal characteristic bands were amplified in the offspring plants, indicating that more genetic information of Dendrobium Pittero Gold 'Diamond Ring' was introduced into the offspring individuals, showing obvious paternal inheritance. Cluster analysis showed that the vast majority of the hybrid offspring tended to be paternal first and then maternal. The results of genetic similarity coefficient analysis showed that the average genetic similarity coefficient between the hybrid offspring and the male parent was greater than that of the female parent, indicating that the tested hybrid offspring were more inclined to the male parent in heredity, which was consistent with the clustering results. The variation of genetic similarity coefficient between the two parents and the offspring was small, indicating that the genetic diversity between the offspring of the hybrid combination was not rich. This is not conducive to the emergence of heterosis varieties, in the subsequent experiments, plants with large genetic differences should be selected for hybrid breeding in order to obtain heterosis varieties. The results showed that the iPBS molecular marker technology could be used as an effective method for the screening and identification of early hybrids in Dendrobium cross breeding. The results of this study would provide a scientific basis for further revealing the genetic diversity between parents and progeny of Dendrobium population.