This study conducted to develop a photo-period and temperature control technique to induce early flower bud differentiation of June-bearing strawberry (‘Seolhyang’) under high-temperature smart greenhouse conditions. A semi-closed greenhouse equipped with an automated shading tunnel was designed to provide short-day (SD) treatments of 8 hours (SD-8hr) and 10 hours (SD-10hr) combined with night-time temperature regulation. Results showed that both SD treatments advanced the first flower cluster emergence by more than two months compared to the control, and SD-10hr exhibited the highest effectiveness for early flower bud induction. During the cooling period, the average night temperature of SD-8hr was 0.9°C lower than that of the control, while the shading tunnel maintained stable temperatures of 16∼21°C during the non-cooling period. Although the control plants showed more vigorous vegetative growth with greater plant height and crown diameter, SD-treated plants exhibited higher photosynthetic rate, stomatal conductance, and transpiration rate, favoring reproductive growth. Fruit weight and soluble solid content were slightly lower in SD treatments but remained within a marketable range. These findings demonstrate that combining short-day (8∼10 hr) photoperiod control with night-time temperature management is an effective technique for promoting early flower bud differentiation and harvest of June-bearing strawberries under high-temperature conditions. The developed control method provides a practical approach for extending strawberry production seasons and improving farm income in smart greenhouse systems.