Let's assume we have some network G, and for edges e_1, e_2 and e_n, there is constraint that they should have equal amount of flow. Given this constraint I want to find max flow.
№ | Пользователь | Рейтинг |
---|---|---|
1 | tourist | 3993 |
2 | jiangly | 3743 |
3 | orzdevinwang | 3707 |
4 | Radewoosh | 3627 |
5 | jqdai0815 | 3620 |
6 | Benq | 3564 |
7 | Kevin114514 | 3443 |
8 | ksun48 | 3434 |
9 | Rewinding | 3397 |
10 | Um_nik | 3396 |
Страны | Города | Организации | Всё → |
№ | Пользователь | Вклад |
---|---|---|
1 | cry | 167 |
2 | Um_nik | 163 |
3 | maomao90 | 162 |
3 | atcoder_official | 162 |
5 | adamant | 159 |
6 | -is-this-fft- | 158 |
7 | awoo | 155 |
8 | TheScrasse | 154 |
9 | Dominater069 | 153 |
10 | djm03178 | 152 |
Network Flow with equal flows on given edges constraint.
Let's assume we have some network G, and for edges e_1, e_2 and e_n, there is constraint that they should have equal amount of flow. Given this constraint I want to find max flow.
Rev. | Язык | Кто | Когда | Δ | Комментарий | |
---|---|---|---|---|---|---|
en3 | Tokyo_Drift | 2022-12-18 10:48:47 | 49 | Tiny change: '{e_2} = ..f_{e_k}$' -> '{e_2} = ...f_{e_k}$' | ||
en2 | Tokyo_Drift | 2022-12-18 10:41:18 | 231 | Tiny change: 'for edges e_1, e_2 and e_n, there is' -> 'for edges $e_1$, $e_2$ and $e_n$, there is' (published) | ||
en1 | Tokyo_Drift | 2022-12-18 10:36:00 | 235 | Initial revision (saved to drafts) |
Название |
---|