高考问答写轮眼和轮回眼:高手帮忙翻译一下
来源:百度文库 编辑:高考问答 时间:2024/04/30 01:31:27
不要软件翻译的,谢谢
Location Sequence. This is the simplest logic; you simply define a flow through your warehouse and assign a sequence number to each location. In order picking this is used to sequence your picks to flow through the warehouse, in putaway the logic would look for the first location in the sequence in which the product would fit.
Zone Logic. By breaking down your storage locations into zones you can direct picking, putaway, or replenishment to or from specific areas of your warehouse. Since zone logic only designates an area, you will need to combine this with some other type of logic to determine exact location within the zone.
Fixed Location. Logic uses predetermined fixed locations per item in picking, putaway, and replenishment. Fixed locations are most often used as the primary picking location in piece pick and case-pick operations, however, they can also be used for secondary storage.
Random Location. Since computers cannot be truly random (nor would you want them to be) the term random location is a little misleading. Random locations generally refer to areas where products are not stored in designated fixed locations. Like zone logic, you will need some additional logic to determine exact locations.
First-in-first-out (FIFO). Directs picking from the oldest inventory first.
Last-in-first-out (LIFO). Opposite of FIFO. I didn't think there were any real applications for this logic until a visitor to my site sent an email describing their operation that distributes perishable goods domestically and overseas. They use LIFO for their overseas customers (because of longer in-transit times) and FIFO for their domestic customers.
Quantity or Unit-of-measure. Allows you to direct picking from different locations of the same item based upon the quantity or unit-of-measured ordered. For example, pick quantities less than 25 units would pick directly from the primary picking location while quantities greater than 25 would pick from reserve storage locations.
Fewest Locations. This logic is used primarily for productivity. Pick-from-fewest logic will use quantity information to determine least number of locations needed to pick the entire pick quantity. Put-to-fewest logic will attempt to direct putaway to the fewest number of locations needed to stock the entire quantity. While this logic sounds great from a productivity standpoint, it generally results in very poor space utilization. The pick-from-fewest logic will leave small quantities of an item scattered all over your warehouse, and the put-to-fewest logic will ignore small and partially used locations.
软件和在线翻译都没有逻辑,希望高手费心了
Location Sequence. This is the simplest logic; you simply define a flow through your warehouse and assign a sequence number to each location. In order picking this is used to sequence your picks to flow through the warehouse, in putaway the logic would look for the first location in the sequence in which the product would fit.
Zone Logic. By breaking down your storage locations into zones you can direct picking, putaway, or replenishment to or from specific areas of your warehouse. Since zone logic only designates an area, you will need to combine this with some other type of logic to determine exact location within the zone.
Fixed Location. Logic uses predetermined fixed locations per item in picking, putaway, and replenishment. Fixed locations are most often used as the primary picking location in piece pick and case-pick operations, however, they can also be used for secondary storage.
Random Location. Since computers cannot be truly random (nor would you want them to be) the term random location is a little misleading. Random locations generally refer to areas where products are not stored in designated fixed locations. Like zone logic, you will need some additional logic to determine exact locations.
First-in-first-out (FIFO). Directs picking from the oldest inventory first.
Last-in-first-out (LIFO). Opposite of FIFO. I didn't think there were any real applications for this logic until a visitor to my site sent an email describing their operation that distributes perishable goods domestically and overseas. They use LIFO for their overseas customers (because of longer in-transit times) and FIFO for their domestic customers.
Quantity or Unit-of-measure. Allows you to direct picking from different locations of the same item based upon the quantity or unit-of-measured ordered. For example, pick quantities less than 25 units would pick directly from the primary picking location while quantities greater than 25 would pick from reserve storage locations.
Fewest Locations. This logic is used primarily for productivity. Pick-from-fewest logic will use quantity information to determine least number of locations needed to pick the entire pick quantity. Put-to-fewest logic will attempt to direct putaway to the fewest number of locations needed to stock the entire quantity. While this logic sounds great from a productivity standpoint, it generally results in very poor space utilization. The pick-from-fewest logic will leave small quantities of an item scattered all over your warehouse, and the put-to-fewest logic will ignore small and partially used locations.
软件和在线翻译都没有逻辑,希望高手费心了
排列位置. 这是最简单的道理; 你只确定了流经仓库,把你的每一个序列位置. 为了选这个顺序来给你拿起流经仓库,putaway逻辑将头位置在寻找的顺序将它们的产品. 逻辑区. 存放地点破了你可以直接到区上,putaway或特定地区或补充您仓库. 因为只有把道理区面积,你必须把这个逻辑同其他类型确定确切位置区内. 固定位置. 逻辑用在每个项目上预定位置固定,putaway、补充. 最常用的固定位置上的首要位置上,并在一片案例作业上,他们还可以用来储存次要. 随机地点. 因为电脑无法真正随机(也不是他们想要)一词有点误导任意位置. 抽样地点一般是指产品的领域不是固定存放在指定的地点. 如无道理,你需要一些额外的逻辑来确定确切的位置. 第一,首先出(FIFO). 从历史上的第一把存货. 最后在第一列(LIFO). 相反FIFO. 我不认为有任何这种逻辑实际应用到我国旅游网站发出电子邮件,说明他们的行动,易腐货物在国内及海外发行. 他们利用自己的海外客户LIFO(由于长时间过境时间)和FIFO为国内用户. 数量或单位的计量. 你可以直接从不同位置上同一项目的数量或依据单位的测量命令. 举例来说,数量上少于25个单位位置上的主要选择,而直接从数量上从储备将超过25储藏地点. 最少的地方. 这个逻辑是主要用于生产. 小--最少逻辑使用量最少的资料,以确定所需要的地点全部选上数量. 把中少逻辑会尝试直接putaway人数最少的地方,需要整个股市的数量. 而这个逻辑是从生产力角度很大,但效果很差一般使用空间. 上车未少逻辑将赴少量的项目遍布你的仓库,把对逻辑最少会不顾小部分地区使用