Промежуточные таблицы истинности:
¬X1:

¬X2:

¬X3:

(¬X1)∧(¬X2):

((¬X1)∧(¬X2))∧X4:

((¬X1)∧(¬X2))∧(¬X3):

(((¬X1)∧(¬X2))∧X4)∨(((¬X1)∧(¬X2))∧(¬X3)):

Общая таблица истинности:

Логическая схема:

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Совершенная дизъюнктивная нормальная форма (СДНФ):

По таблице истинности:
F_сднф = ¬X1∧¬X2∧¬X4∧¬X3 ∨ ¬X1∧¬X2∧X4∧¬X3 ∨ ¬X1∧¬X2∧X4∧X3
Логическая cхема:

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Совершенная конъюнктивная нормальная форма (СКНФ):

По таблице истинности:
F_скнф = (X1∨X2∨X4∨¬X3) ∧ (X1∨¬X2∨X4∨X3) ∧ (X1∨¬X2∨X4∨¬X3) ∧ (X1∨¬X2∨¬X4∨X3) ∧ (X1∨¬X2∨¬X4∨¬X3) ∧ (¬X1∨X2∨X4∨X3) ∧ (¬X1∨X2∨X4∨¬X3) ∧ (¬X1∨X2∨¬X4∨X3) ∧ (¬X1∨X2∨¬X4∨¬X3) ∧ (¬X1∨¬X2∨X4∨X3) ∧ (¬X1∨¬X2∨X4∨¬X3) ∧ (¬X1∨¬X2∨¬X4∨X3) ∧ (¬X1∨¬X2∨¬X4∨¬X3)
Логическая cхема:

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Построение полинома Жегалкина:

По таблице истинности функции
Построим полином Жегалкина:
F_ж = C₀₀₀₀ ⊕ C₁₀₀₀∧X1 ⊕ C₀₁₀₀∧X2 ⊕ C₀₀₁₀∧X4 ⊕ C₀₀₀₁∧X3 ⊕ C₁₁₀₀∧X1∧X2 ⊕ C₁₀₁₀∧X1∧X4 ⊕ C₁₀₀₁∧X1∧X3 ⊕ C₀₁₁₀∧X2∧X4 ⊕ C₀₁₀₁∧X2∧X3 ⊕ C₀₀₁₁∧X4∧X3 ⊕ C₁₁₁₀∧X1∧X2∧X4 ⊕ C₁₁₀₁∧X1∧X2∧X3 ⊕ C₁₀₁₁∧X1∧X4∧X3 ⊕ C₀₁₁₁∧X2∧X4∧X3 ⊕ C₁₁₁₁∧X1∧X2∧X4∧X3

Так как F_ж(0000) = 1, то С₀₀₀₀ = 1.

Далее подставляем все остальные наборы в порядке возрастания числа единиц, подставляя вновь полученные значения в следующие формулы:
F_ж(1000) = С₀₀₀₀ ⊕ С₁₀₀₀ = 0 => С₁₀₀₀ = 1 ⊕ 0 = 1
F_ж(0100) = С₀₀₀₀ ⊕ С₀₁₀₀ = 0 => С₀₁₀₀ = 1 ⊕ 0 = 1
F_ж(0010) = С₀₀₀₀ ⊕ С₀₀₁₀ = 1 => С₀₀₁₀ = 1 ⊕ 1 = 0
F_ж(0001) = С₀₀₀₀ ⊕ С₀₀₀₁ = 0 => С₀₀₀₁ = 1 ⊕ 0 = 1
F_ж(1100) = С₀₀₀₀ ⊕ С₁₀₀₀ ⊕ С₀₁₀₀ ⊕ С₁₁₀₀ = 0 => С₁₁₀₀ = 1 ⊕ 1 ⊕ 1 ⊕ 0 = 1
F_ж(1010) = С₀₀₀₀ ⊕ С₁₀₀₀ ⊕ С₀₀₁₀ ⊕ С₁₀₁₀ = 0 => С₁₀₁₀ = 1 ⊕ 1 ⊕ 0 ⊕ 0 = 0
F_ж(1001) = С₀₀₀₀ ⊕ С₁₀₀₀ ⊕ С₀₀₀₁ ⊕ С₁₀₀₁ = 0 => С₁₀₀₁ = 1 ⊕ 1 ⊕ 1 ⊕ 0 = 1
F_ж(0110) = С₀₀₀₀ ⊕ С₀₁₀₀ ⊕ С₀₀₁₀ ⊕ С₀₁₁₀ = 0 => С₀₁₁₀ = 1 ⊕ 1 ⊕ 0 ⊕ 0 = 0
F_ж(0101) = С₀₀₀₀ ⊕ С₀₁₀₀ ⊕ С₀₀₀₁ ⊕ С₀₁₀₁ = 0 => С₀₁₀₁ = 1 ⊕ 1 ⊕ 1 ⊕ 0 = 1
F_ж(0011) = С₀₀₀₀ ⊕ С₀₀₁₀ ⊕ С₀₀₀₁ ⊕ С₀₀₁₁ = 1 => С₀₀₁₁ = 1 ⊕ 0 ⊕ 1 ⊕ 1 = 1
F_ж(1110) = С₀₀₀₀ ⊕ С₁₀₀₀ ⊕ С₀₁₀₀ ⊕ С₀₀₁₀ ⊕ С₁₁₀₀ ⊕ С₁₀₁₀ ⊕ С₀₁₁₀ ⊕ С₁₁₁₀ = 0 => С₁₁₁₀ = 1 ⊕ 1 ⊕ 1 ⊕ 0 ⊕ 1 ⊕ 0 ⊕ 0 ⊕ 0 = 0
F_ж(1101) = С₀₀₀₀ ⊕ С₁₀₀₀ ⊕ С₀₁₀₀ ⊕ С₀₀₀₁ ⊕ С₁₁₀₀ ⊕ С₁₀₀₁ ⊕ С₀₁₀₁ ⊕ С₁₁₀₁ = 0 => С₁₁₀₁ = 1 ⊕ 1 ⊕ 1 ⊕ 1 ⊕ 1 ⊕ 1 ⊕ 1 ⊕ 0 = 1
F_ж(1011) = С₀₀₀₀ ⊕ С₁₀₀₀ ⊕ С₀₀₁₀ ⊕ С₀₀₀₁ ⊕ С₁₀₁₀ ⊕ С₁₀₀₁ ⊕ С₀₀₁₁ ⊕ С₁₀₁₁ = 0 => С₁₀₁₁ = 1 ⊕ 1 ⊕ 0 ⊕ 1 ⊕ 0 ⊕ 1 ⊕ 1 ⊕ 0 = 1
F_ж(0111) = С₀₀₀₀ ⊕ С₀₁₀₀ ⊕ С₀₀₁₀ ⊕ С₀₀₀₁ ⊕ С₀₁₁₀ ⊕ С₀₁₀₁ ⊕ С₀₀₁₁ ⊕ С₀₁₁₁ = 0 => С₀₁₁₁ = 1 ⊕ 1 ⊕ 0 ⊕ 1 ⊕ 0 ⊕ 1 ⊕ 1 ⊕ 0 = 1
F_ж(1111) = С₀₀₀₀ ⊕ С₁₀₀₀ ⊕ С₀₁₀₀ ⊕ С₀₀₁₀ ⊕ С₀₀₀₁ ⊕ С₁₁₀₀ ⊕ С₁₀₁₀ ⊕ С₁₀₀₁ ⊕ С₀₁₁₀ ⊕ С₀₁₀₁ ⊕ С₀₀₁₁ ⊕ С₁₁₁₀ ⊕ С₁₁₀₁ ⊕ С₁₀₁₁ ⊕ С₀₁₁₁ ⊕ С₁₁₁₁ = 0 => С₁₁₁₁ = 1 ⊕ 1 ⊕ 1 ⊕ 0 ⊕ 1 ⊕ 1 ⊕ 0 ⊕ 1 ⊕ 0 ⊕ 1 ⊕ 1 ⊕ 0 ⊕ 1 ⊕ 1 ⊕ 1 ⊕ 0 = 1

Таким образом, полином Жегалкина будет равен:
F_ж = 1 ⊕ X1 ⊕ X2 ⊕ X3 ⊕ X1∧X2 ⊕ X1∧X3 ⊕ X2∧X3 ⊕ X4∧X3 ⊕ X1∧X2∧X3 ⊕ X1∧X4∧X3 ⊕ X2∧X4∧X3 ⊕ X1∧X2∧X4∧X3
Логическая схема, соответствующая полиному Жегалкина: