In　order　to　achieve　effective　protection　of　digital　image　information　and　provide　anti-attack　capability　for　encrypted　image,　this　paper　proposed　an　ACP-based　Approach　to　color　image　encryption　using　DNA　sequence　operation　and　hyper-chaotic　system.　By　using　the　ACP　method　which　is　a　way　to　solve　the　social　computing　problem,　the　influence　of　the　chaotic　data　from　the　real　world　and　the　influence　of　the　chaotic　data　from　the　simulation　on　the　encryption　were　combined.　First,　obtaining　chaotic　data　in　reality,　we　made　artificial　random　images　by　using　cloud　model;　Then,　chaotic　data　in　reality　were　used　to　encrypt　the　artificial　random　image　while　chaotic　data　in　simulation　were　used　to　encrypt　the　original　image;　Finally,　using　the　method　of　parallel　execution,　combining　with　the　influence　of　the　chaotic　data　of　the　two　groups,　performing　DNA-XOR　operation　on　two　groups　encryption　results　and　we　get　the　final　encrypted　image.　The　simulation　results　show　that　the　algorithm　has　a　good　encryption　effect　and　a　larger　secret　key　space　to　the　key.　In　addition,　the　algorithm　can　also　resist　the　brute　attack　and　differential　attack,　and　achieve　the　hyper-chaotic　image　encryption　in　the　disadvantages　of　low　chaos.