Elevator systems and methods for operating same

What is claimed is: 1. A lift system comprising: a first shaft unit that includes a plurality of lift shafts; at least one of a single-car system or a multi-car system disposed in the first shaft unit; a second shaft unit that includes a plurality of lift shafts; a shaft-changing multi-car system disposed in the second shaft unit; and a control unit that determines whether to transport passengers to destination floors using the single-car system, the multi-car system, the shaft-changing multi-car system, or a combination thereof depending on at least one of the destination floors of the passengers, traffic density, energy demand, or availability of cars. 2. The lift system of claim 1 wherein the cars of the shaft-changing multi-car system move over an entire vertical length of the second shaft unit. 3. The lift system of claim 1 further comprising at least one of a plurality of single-car systems or a plurality of multi-car systems disposed in the first shaft, wherein the first and second shaft units are each divided into vertical intervals that each comprise a plurality of floors, with the vertical intervals being the same for the first and second shaft units, the lift system further comprising at least one of: one or more of the single-car systems disposed in individual vertical intervals of the vertical intervals of the first shaft unit, or one or more of the multi-car systems disposed in a plurality of the vertical intervals of the first shaft unit. 4. The lift system of claim 1 wherein the first and second shaft units are each divided into vertical intervals that each comprise a plurality of floors, with the vertical intervals being the same for the first and second shaft units, wherein the multi-car system operates in an upper vertical interval and a lower vertical interval that are vertically adjacent to one another in the first shaft unit, wherein an upper car of the multi-car system operates in the upper vertical interval and a lower car of the multi-car system operates in the lower vertical interval. 5. The lift system of claim 1 wherein the first and second shaft units are each divided into vertical intervals that each comprise a plurality of floors, with the vertical intervals being the same for the first and second shaft units, wherein the vertical intervals partially overlap such that one or more floors within a lower vertical interval are also part of an upper vertical interval directly above the lower vertical interval. 6. The lift system of claim 5 further comprising a transfer stop located on a floor where the vertical intervals partially overlap, wherein a passenger can transfer between the shaft-changing multi-car system of the second shaft unit and the single-car system or the multi-car system of the first shaft unit at the transfer stop. 7. The lift system of claim 6 further comprising a plurality of transfer stops, wherein each of the plurality of transfer stops are spaced apart by between 20-100 meters. 8. The lift system of claim 1 wherein a number of cars of the shaft-changing multi-car system is modifiable depending on anticipated or actual transporting operations. 9. A lift system comprising: a first shaft unit that includes a plurality of lift shafts; a single-car system and a multi-car system disposed in the first shaft unit; a second shaft unit that includes a plurality of lift shafts; and a shaft-changing multi-car system disposed in the second shaft unit. 10. The lift system of claim 9 wherein the lift system is operated without at least one of destination selection control or call control. 11. The lift system of claim 9 wherein the first and second shaft units are each divided into two, three, four, or five vertical intervals per 100 meters of building height, with each of the vertical intervals comprising a plurality of floors and with the vertical intervals being the same for the first and second shaft units. 12. A lift system comprising: a first shaft unit that includes a plurality of lift shafts; at least one of a single-car system or a multi-car system disposed in the first shaft unit; a second shaft unit that includes a plurality of lift shafts; and a shaft-changing multi-car system disposed in the second shaft unit, wherein a car of the shaft-changing multi-car system of the second shaft unit is used as a feeder car in a first part-transporting operation where a passenger then changes cars prior to a second part-transporting operation that delivers the passenger to a destination floor. 13. The lift system of claim 12 wherein the feeder car moves between at least two vertical intervals during the first part-transporting operation. 14. The lift system of claim 12 wherein the second part-transporting operation is performed in the first shaft unit, wherein a vertical length traveled during the first part-transporting operation is greater than a vertical length traveled during the second part-transporting operation. 15. The lift system of claim 12 further comprising a display device for displaying information related to transportation operations of the lift system. 16. A lift system comprising: a first shaft unit that includes a plurality of lift shafts; at least one of a single-car system or a multi-car system disposed in the first shaft unit; a second shaft unit that includes a plurality of lift shafts; and a shaft-changing multi-car system disposed in the second shaft unit, wherein the cars of the shaft-changing multi-car system are synchronized. 17. The lift system of claim 16 wherein outside definable time periods, the shaft-changing multi-car system transports a passenger by a direct journey to a destination floor. 18. A lift system comprising: a first shaft unit including at least one lift shaft; at least one of a single-car system or a multi-car system disposed in the first shaft unit; a second shaft unit that includes a plurality of lift shafts; a shaft-changing multi-car system disposed in the second shaft unit; and a control unit that determines whether to transport passengers to destination floors using the first shaft, the second shaft, or a combination thereof depending on at least one of the destination floors of the passengers, traffic density, energy demand, or availability of cars. 19. A method for operating a lift system having a first shaft unit and a second shaft unit, the method comprising: transporting a passenger to a transfer stop by way of a shaft-changing multi-car system in the second shaft unit; transporting the passenger from the transfer stop to a destination floor by way of a single-car system or a multi-car system in the first shaft unit; and synchronizing the cars of the shaft-changing multi-car system. 20. The method of claim 19 further comprising using a car of the shaft-changing multi-car system of the second shaft unit as a feeder car in a first part-transporting operation where a passenger then changes cars prior to a second part-transporting operation that delivers the passenger to a destination floor.