In winter of northern Taiwan, northeast monsoon results in low temperature, frequent rains and low sunshine hours which limit the growth vigor and yield of cucumber in protected structures. Supplemental interlighting could increase low light intensity. Proper fruit thinning could reach optimal arrangement of shoots and increase productive efficiency in limited area. Optimal concentrations of nitrogen and potassium in nutrient solution could balance the vegetative and reproductive growth, and prevent potassium deficiency and fruit abortion in the late stage of harvest. This research aimed to study the optimal supplemental interlighting, fruit thinning method and concentrations of nitrogen and potassium in nutrient solution in winter to increase the yield and quality of cucumber grown in protected structures in northern Taiwan. In the sunlight and artificial light type plant factory in winter at National Taiwan University, cucumber ‘Shioushiou’ was cultivated in new and the 5th-time reused ‘treated coir’, and supplementally interlighted with T5 fluorescent (Wellypower, FH 28W/865) to light intensity 250 µmol•m-2•s-1 and photoperiod 14 h/10 h or no interlighted. Neck and central width and soluble solid content in fruits of plants grown with supplemental interlighting were also higher than those without supplemental interlighting. Cucumbers grown in new treated coir with supplemental interlighting could be harvested 10 days earlier than those in the 5th-time reused treated coir, with highest fruit weight and number per plant (935.7 g and 7.6), and fruit ascorbic acid content (74.4 µg•g-1). ‘Shioushiou’ was also cultivated in new and 5th-time reused treated coir without supplemental interlighting in the greenhouse. The kind of treated coir did not affect fruit weight and number per plant and weight per fruit. The fruit ascorbic acid content (123.7 µg•g-1) from new treated coir was higher than that from the 5th-time reused treated coir. Cucumber ‘Shioushiou’ plants were cultivated in the 2nd-time reused treated coir and thinned to 1 or 2 fruits remained on the secondary suckers both in plant factory and greenhouse in spring, totally 4 treatment. Because of the higher light intensity in the greenhouse, the fruit weight and number per plant (980 g and 5.3) and fruit diameter (3.4 cm) were higher than those in the plant factory. The method of fruit thinning did not significantly affect fruit weight and number per plant. However, in 1 fruit remained treatment, the fruits were longer than those in 2 fruits remained treatment. Cucumber ‘Shioushiou’ was cultivated with N300K240 in vegetative stage, d N400K500, N600K750 and N800K1000 nutrient solution in synchronical stage of vegetative and reproductive growth, and 0, 1 or 2 fruits remained on the secondary suckers in plant factory in autumn. The highest fruit weight and number per plant (733.1 g and 8.8) were shown in N600K750-2 fruits treatment. ‘Shioushiou’ was also cultivated with the same 3 nutrient solutions and 3 fruit thinning methods in the greenhouse. The highest fruit weight and number per plant were exhibited in N600K750-1 fruit (532 g, 7) and N600K750-2 fruits (533 g, 6.7) treatment. In winter, cucumber ‘Shioushiou’ was cultivated with N300K240 nutrient solution in vegetative stage, N600K750 nutrient solution in synchronical stage of vegetative and reproductive growth, and 2 fruits remained on the secondary suckers. No, double-sided and single-sided supplemental interlighting were treated, when light intensity was below 30 µmol•m-2•s-1, supplemental interlighting with T5 fluorescent to light intensity 250 µmol•m-2•s-1 and photoperiod 14 h/10 h in the plant factory, and no supplemental interlighting were treated in the greenhouse. The low tempertature (18℃) in the greenhouse during cultivation resulting in slow growth, hence the shortest stem and the lowest yield in no supplemental interlighting treatment, but soluble solid content was higher than those in plant factory. The stem diameter was only 3.5 mm in plants grown in plant factory without supplemental interlighting resulting These plants were the most slender and the highest stem. Leaf number, stem width and SPAD-502 value in plants grown with supplemental interlighting in plant factory were the highest. The highest fruit weight and number per plant, fresh weight per fruit, neck and central width and ascorbic acid content were exhibited in fruits from double-sided supplemental interlighting treatment and could be harvested 10 days earlier than no supplemental interlighting treatment in plant factory and 20 days earlier than no supplemental interlighting treatment in greenhouse. In conclusion, in the protected structure in northern Taiwan, it is suggested cucumbers ‘Shioushiou’ planted in treated coir, with N300K240 nutrient solution in vegetative stage, N600K750 in synchronical stage of vegetative and reproductive growth, and 1 or 2 fruit(s) remained per sucker above the fifth node. In winter, supplemental interlighting with T5 fluorescent to light intensity 250 µmol•m-2•s-1 and photoperiod 14 h/10 h, the best fruit weight (1222 g) and number (13) per plant and ascorbic acid content (87.3 µg•g-1) of cucumber could be obtained in protected strutures in northern Taiwan. Index words: supplemental interlighting, treated coir fiber dust, pruning, fruit thinning, nitrogen, potassium, nutrient solution culture.