Spool brake device for dual-bearing reel

What is claimed is: 1. A spool brake device for a fishing reel, comprising: a velocity detector configured to detect a rotational velocity of a spool; a spool controller including an acceleration generator, an acceleration determiner and a brake time predictor, the acceleration generator configured to generate time-series data of a rotational acceleration based on the rotational velocity, the acceleration determiner configured to determine whether the rotational acceleration has satisfied a predetermined condition based on the time-series data of the rotational acceleration, the brake time predictor configured to set a prediction starting time based on a point of time at which the rotational acceleration has satisfied the predetermined condition and to predict a brake starting time of the spool based on the prediction starting time; and a spool brake configured to start braking the spool at the brake starting time. 2. The spool brake device according to claim 1 , wherein the acceleration determiner is configured to determine whether the rotational acceleration has become a predetermined value or less based on the time-series data of the rotational acceleration, and the brake time predictor is configured to set the prediction starting time based on a point of time at which the rotational acceleration has become the predetermined value or less. 3. The spool brake device according to claim 2 , further comprising: a maximum acceleration detector configured to detect a maximum value of the rotational acceleration in the time-series data of the rotational acceleration, wherein the acceleration determiner is configured to determine whether the rotational acceleration has become the predetermined value or less based on the maximum value of the rotational acceleration. 4. The spool brake device according to claim 3 , wherein the acceleration determiner is configured to start determining whether the rotational acceleration has become the predetermined value or less at a point of time at which the maximum value of the rotational acceleration has been detected. 5. The spool brake device according to claim 1 , wherein the brake time predictor is configured to set a period of time between the prediction starting time and the brake starting time to be a predetermined value. 6. The spool brake device according to claim 1 , wherein the brake time predictor is configured to set a period of time between the prediction starting time and the brake starting time based on the time-series data of the rotational acceleration. 7. The spool brake device according to claim 1 , wherein the acceleration determiner determines whether a rotational acceleration ratio has become a predetermined value or less. 8. A method implemented by a spool brake device for a fishing reel, the method comprising: detecting a rotational velocity of a spool; generating time-series data of a rotational acceleration based on the rotational velocity; determining whether the rotational acceleration has satisfied a predetermined condition based on the time-series data of the rotational acceleration; setting a prediction starting time based on a point of time at which the rotational acceleration has satisfied the predetermined condition; predicting a brake starting time of the spool based on the prediction starting time; and starting a braking of the spool at the brake starting time. 9. The method according to claim 8 , further comprising: determining whether the rotational acceleration has become a predetermined value or less based on the time-series data of the rotational acceleration; and setting the prediction starting time based on a point of time at which the rotational acceleration has become the predetermined value or less. 10. The method according to claim 9 , further comprising: detecting a maximum value of the rotational acceleration in the time-series data of the rotational acceleration; and determining whether the rotational acceleration has become the predetermined value or less based on the maximum value of the rotational acceleration. 11. The method according to claim 10 , further comprising: starting determining whether the rotational acceleration has become the predetermined value or less at a point of time at which the maximum value of the rotational acceleration has been detected. 12. The method according to claim 8 , further comprising: setting a period of time between the prediction starting time and the brake starting time to be a predetermined value. 13. The method according to claim 8 , further comprising: setting a period of time between the prediction starting time and the brake starting time based on the time-series data of the rotational acceleration. 14. A non-transitory, computer-readable medium encoded with instructions that, when executed by a processor, cause the processor to perform a method comprising: detecting a rotational velocity of a spool; generating time-series data of a rotational acceleration based on the rotational velocity; determining whether the rotational acceleration has satisfied a predetermined condition based on the time-series data of the rotational acceleration; setting a prediction starting time based on a point of time at which the rotational acceleration has satisfied the predetermined condition; predicting a brake starting time of the spool based on the prediction starting time; and starting a braking of the spool at the brake starting time. 15. The medium according to claim 14 , the method further comprising: determining whether the rotational acceleration has become a predetermined value or less based on the time-series data of the rotational acceleration; and setting the prediction starting time based on a point of time at which the rotational acceleration has become the predetermined value or less. 16. The medium according to claim 15 , the method further comprising: detecting a maximum value of the rotational acceleration in the time-series data of the rotational acceleration; and determining whether the rotational acceleration has become the predetermined value or less based on the maximum value of the rotational acceleration. 17. The medium according to claim 16 , the method further comprising: starting determining whether the rotational acceleration has become the predetermined value or less at a point of time at which the maximum value of the rotational acceleration has been detected. 18. The medium according to claim 14 , the method further comprising: setting a period of time between the prediction starting time and the brake starting time to be a predetermined value. 19. The medium according to claim 14 , the method further comprising: setting a period of time between the prediction starting time and the brake starting time based on the time-series data of the rotational acceleration. 20. The medium according to claim 14 , the method further comprising: determining whether a rotational acceleration ratio has become a predetermined value or less.