We present photometric results of the  Sct star V1162 Ori, which is extensively monitored for a total of 49 nights from mid-December 2014 to early-March 2015. The observations are made with three KMTNet (Korea Microlensing Telescope Network) 1.6 m telescopes installed in Chile, South Africa, and Australia. Multiple frequency analysis is applied to the data and resulted in clear detection of seven frequencies without an alias problem: five known frequencies and two new ones with small amplitudes of 1.2-1.7 mmag. The amplitudes of all but one frequency are significantly different from previous results, confirming the existence of long-term amplitude changes. We examine the variations in pulsation timings of V1162 Ori for about 30 years by using the times of maximum light obtained from our data and collected from the literatures. The O − C (Observed minus Calculated) timing diagram shows a combination of a downward parabolic variation with a period decreasing rate of (1/P)dP/dt = −4.22 × 10−6 year−1 and a cyclic change with a period of about 2780 days. The most probable explanation for this cyclic variation is the light-travel-time effect caused by an unknown binary companion, which has a minimum mass of 0.69 M⊙. V1162 Ori is the first  Sct-type pulsating star of which the observed fast period decrease can be interpreted as an evolutionary effect of a pre-main sequence star, considering its membership of the Orion OB 1c association.

Abstract
1. INTRODUCTION
2. OBSERVATION AND DATA REDUCTION
    2.1. Three-Site Monitoring
    2.2. Ensemble Photometry
    2.3. Shutter Timing Correction
3. PULSATIONAL CHARACTERISTICS
4. PULSATION TIMING VARIATION
5. CONCLUSIONS
REFERENCES

• Seung-Lee Kim(Korea Astronomy and Space Science Institute/Korea University of Science and Technology) Corresponding author
• Sang-Mok Cha(Korea Astronomy and Space Science Institute/School of Space Research, Kyung Hee University)
• Beomdu Lim(Korea Astronomy and Space Science Institute)
• Jae Woo Lee(Korea Astronomy and Space Science Institute/Korea University of Science and Technology)
• Chung-Uk Lee(Korea Astronomy and Space Science Institute/Korea University of Science and Technology)
• Yongseok Lee(Korea Astronomy and Space Science Institute/School of Space Research, Kyung Hee University)
• Dong-Jin Kim(Korea Astronomy and Space Science Institute)
• Dong-Joo Lee(Korea Astronomy and Space Science Institute)
• Jae-Rim Koo(Korea Astronomy and Space Science Institute)
• Kyeongsoo Hong(Korea Astronomy and Space Science Institute)
• Yoon-Hyun Ryu(Korea Astronomy and Space Science Institute)
• Byeong-Gon Park(Korea Astronomy and Space Science Institute/Korea University of Science and Technology)